No, this is not intentional. If there's EQ applied anywhere in the chain, I'm not aware of it. Wondering if the sub has something to do with it. When I calibrated to the actual levels the sub would only reach 70dB at the listening position, whereas the monitors were at 80dB.
It's not the sub. The roll-off is in the very high end, above 4 kHz. You can see it in the graph below:
Warrior--REW-FR--12-24k--roll-off.png
That's the left and right curves along with the sub. I placed the cursor line at 80 dB, which is the nominal level that you calibrated for, and you can see that in general most of the spectrum lines close to the line, reasonably flat, with a boost in the bass from your sub as well as the room modal response. But above 5k, it takes a dive, quite steep. Over the two octaves from 5k to 20k, it drops nearly 20 dB. That's a lot. It's about 18 dB, so that's a 9db/octave roll off. It's not an acoustic issue, since it would be impossible for the room to suck out sound from the speakers before they even emit it! That curve shows roughly the level that is being produced by the speakers themselves, so it is either a speaker problem (maybe the controls on the back of the speaker are not set correctly), or its a signal chain problem on the outgoing signal (EQ applied on your console, sound card, computer, etc.), or it's an input problem: the mic, pre-amp, console, computer, etc, but on the path coming back in again). Now, considering that you did do the loop-back calibration process, and it showed basically flat calibration (the way it should be), it's unlikely to be anything related to your sound card or computer (that's the very reason for doing the loop-back calibration test: to make sure that there's no unexpected EQ or other problem happening internally, in that area). So it can only be something that was NOT rested by the loop-back configuration. That basically leaves console (if the signal is passing though one), cross-over (if you have one), speaker controller (if you have one), speaker, mic, and mic pre-amp.
What speakers are you using?
Could this be a flaw in the monitor system design itself - therefore justifying a monitor system upgrade?
I guess that's possible of the speakers are really lousy, but good studio monitors should not do anything like that. They should be pretty flat in the high end... unless you adjust the rear panel controls for treble roll-off. Also, I doubt it is damage to the speakers, since they are both doing the exact same thing.
The basic dimensions of the room are 20' Lx 12' W x 7'10" H.
Great! That confirms that your 28 Hz problem is your 1.0.0 axial mode. That's the first mode in the lengthwise direction, forming between the front and rear walls. That 1.0.0 mode is often the largest and most problematic, in most rooms. Its big, and it is hard to treat. The 84 Hz peak is probably the third harmonic of that one (in other words, the 3.0.0 mode), and the 144 peak is likely the 5th harmonic. In which case, it is possible that the 115 Hz dip is also the 4th harmonic.
So its clear that the rear wall treatment is very much insufficient, as there's little sign that your front-to-back axial modes are being damped at all.
You can see all of that on the waterfall plot below:
Warrior--REW-WF--15-500-modal.png
There are 9 - 4'x2'x6" bass traps in there. Curious how much more thee should have been?
6" thickness isn't very much for bass trapping. That's more like broadband for the low mids. Think of it this way: at 28 Hz, the wavelength is forty FEET! Yup. That's how long the waves are down that low. So there's a 40 foot difference between one peak and the next, if the wave was moving in free air... but it is NOT moving: the pressure peaks are standing still in your room, because your room is 20 feet long: that's why modes are called "standing waves": It's not because the energy isn't moving: it is. The sound energy is still rushing around your room at 343 meters per second, just like for any other wave. But because the length of your room exactly matches half the length of the wave, that means that the pressure peaks and nulls always occur at the exact same location in your room, every time the energy rushes past. Some text books say that you need absorption that is one quarter wavelength thick to deal with such a wave, which implies you would need a bass trap ten feet thick!
Fortunately, that isn't correct. Yes, you would get optimum absorption if you had absorption ten feet from your front wall, or ten feet from your back wall, but that does not mean that it MUST be there, or that it MUST be that thick. In reality, you still get reasonable absorption from treatment that is as little as 1/16th wavelength (about 7%)... but that's still two and a half feet thick. About 30". Your 6" absorbers are only about 1% of the wavelength, which is why the are not doing anything to damp it. They don't damp the second harmonic at 56 Hz (still only 2.4% of the wavelength), nor the third harmonic (3.7%), nor the fourth harmonic at 112 Hz (5%), and it's only at the fourth harmonic, 168 Hz that they start having some effect, where they are about 7.5% of the wavelength. Once again, this is visible on the waterfall graph: you can almost see the "line" of effectiveness: You can see that as frequency increases, the modes are damped more and more. Nothing at all at 28 Hz, and almost completely beyond about 180 Hz, with increasing improvement all the way, as the wavelength gets closer and closer to the effective thickness of the 6" insulation.
So, to properly damp that 208 Hz mode, you would need absorption about 30" thick. This is why you often see recommendations for "superchunk" bass traps to run at least 36" along the walls, and also for studios that have enough space to have rear wall treatment at least 3 feet deep. That doesn't meat that you have to put up 3 feet of mineral-wool across the entire rear wall! There are other ways of getting good absorption, but the point is that, to be effective below 30 Hz, it would need to extend about 3 feet into the room.
That said, there are other methods too! For the above, I have been talking about pure absorption bass traps. But there are other types of bass trap that are effective at low frequencies while taking up much less thickness. It is possible to deal with 28 Hz modes using tuned traps that are less than one foot thick. Tuned traps, such as various types of Helmholtz resonator, membrane traps, and panel traps. For your new room, you could do a combination of those to get good trapping down to very low frequencies.
I don't think I have flutter issues but I'm not certain. Unfortunately, I can't verify as I removed all of the treatments yesterday after running the analysis in preparation for our move.
Then it's not worth worrying about, if you wont be using that room any more! But it is something to be aware of when designing your new room.
Dang it.... not sure how that slipped by me. I thought I calibrated at 48!!
It's no big deal: the calibration showed basically flat response for your sound card, with just the typical slight roll off at the extremes. And that's the entire point of doing the calibration! To make sure that nothing internal in the sound card or computer is messing things up. For today0s sound cards, the response is pretty much always similar to what you have, so the calibration file isn't really needed for interpreting the results. But I put that step in the procedure as a check to make SURE that it is flat... If it turns out to be flat as it should, then the file isn't needed. But if it is NOT flat, that indicates that there's an issue some place internally... which is what you had, in fact! Initially, you had some type of internal monitoring path active that was causing feedback, which gave you the wonky initial result. You would never have known about that if you didn't do the calibration... There's reasons for every step in that procedure I wrote!
Well, I'm certainly preparing to make the next studio better.
Hopefully your new room will be about the same size, but with a higher ceiling! Your current room has a rather low ceiling, which isn't helping the acoustics much...
I am bringing these acoustic treatments with me in hopes that I can use them as part of the treatment for the next room.
Definitely! They are doing what would be expected from such panels, and they can be used in your new room as well... just not for bass trapping! As you can see, they were not doing an effective job for bass trapping. But they are still good for treating other issues. You can build your own bass traps simply and cheaply, then use these for other purposes.
I am SO looking forward to starting the design of the next room!! They have dug the hole for our basement and should start pouring concrete next week.
Cool! Keep us posted on that! If it's not too late, make sure that your new basement is deeper, with a higher ceiling.... Your length and width are fine, but a higher ceiling would be nice. like 9 feet or so, if possible...
Once that is underway, I'll be able to get some actual measurements and begin designing the new room.
Do you have the actual plans for the basement? Especially the HVAC, plumbing, and electrical plans? Because right now is the time to check those, and makes sure that all of that stuff does NOT go anywhere near where your studio will be!!! You do not want pipes, ducts, or electrical distribution boxes above the location where your studio is. If you fins that some of that will be overhead, then get them to change that on the plans, right now, to avoid problems later.
Once the layout and construction principles of the room are decided, is it reasonable to begin considering acoustic treatments or is it best to wait to measure the actual room using REW and then determine the treatment design?
To be very honest, the basics of the room should be decided long before you start digging holes in the ground... There's many things you can build into the overall building design to create a better studio. After the building design is locked in, it's usually hard to change stuff, such as ceiling height and room dimensions for example. It is sometimes possible to change HVAC duct layout, and plumbing, and gas pipes, and electrical, before they actually start the framing, but that might incur some costs in changing the plans and perhaps additional materials. You might not be too late for that.
In general, it is better to have the studio designed along with the rest of the building so that they work together with no conflicts. Even something as simple as the location of the door into the room, and the location of the HVAC silencer boxes, can be a problem if not taken into consideration before the room is built.
Now would be the right time to decide on all of that, and fix what still can be fixed before it gets carved in stone, so to speaker. There's a process I go through with my clients to help define all of this when designing their home studios. If you are pouring concrete next week then it's a little advanced to be doing the very basic stuff, as those decisions have already been made, but there's still stuff that you could change to improve the final outcome of your studio. The process starts with defining the isolation needs for the studio, then overall goals, the basic studio design concept (RFZ, NER, LEDE, FTB, CID, etc), and the overall dimensions, then moves on to factors that depend on the above, then the layout and geometry (where the speakers and mix position need to be for optimal performance), and eventually gets down into the nitty-gritty of designing each individual acoustic treatment device, and where it will go in the room. You might be a little late to control some of the major decisions, but there's still plenty of opportunity for controlling the rest.
I've started that thread here
Great! I'll take look over there, and start following your progress.
- Stuart -