Hi all,

I'm new to pure data but prepared to learn a little bit if I can get it to solve my problem! Basically, I need to process all audio out of my computer so that my AV receiver will be able to separate the bass to direct to my subwoofer. To do this all I need to do is filter off everything below 100Hz and send half to the left channel and invert the other half to send to the right channel. The Dolby Pro-Logic int he receiver will then decode this and direct the bass to the rear speaker output, where my subwoofer is plugged in!

My big question is whether pure data is powerful enough to do this. It would need to perform a low pass filter and high pass filter of my live audio output, which doesn't sound too taxing. Hardware wise I have a Creative XtremeGamer soundcard, onboard sound, and a quad-core pc.

If anyone could give me a few pointers that would be great!

Thanks,

James

Hey je305,

Here's a version using linear-phase FIR filters. I don't have the system to test it, so I'm just relying on plots.

http://www.pdpatchrepo.info/hurleur/subbass.mmb.pd

Thanks a lot, I've give it a test. I've just been comparing lop~ and lp10_bess~ and the Bessel filters do a noticably better job

Wow. There is so much more clarity, especially in the middle ranges.
There seems to be a very strong sense of stereo - I'm not sure if this is just because stereo effects were being lost/muddied in the previous system or if it's because the two sides are being treated differently, I'll do a bit of experimentation with stereo and mono inputs.

Thanks very much, this is turning out to be pretty interesting!

*I think it's more of an unbalanced sense of stereo, hard to put my finger on exactly.

**This program requires the bass to be centred perfectly to work ideally, I'm going to have a quick think about adjusting it so that the bass can be imbalanced and still work (I think this was the source of the sense of stereo imbalance somehow or other). No doubt the program will become less elegant to accommodate this, which is a shame, but it should make it more robust. I have a plot of the panning of frequencies being created by a friend at the moment, I'll post it up if suggests bass imbalance.

http://s15.postimage.org/rg4s3dz8b/linescatter.png This shows the bass is a little over to the left.

Here is an attempt at balancing it

http://www.pdpatchrepo.info/hurleur/subbasbalanceds.mmb.pd

Typically crossovers should be Linkwitz-Riley filters (two Butterworth filters in series) to ensure that frequency response is flat when summed.

Just took a quick look at how Linkwitz-Riley filters work, and it sounds like the better option. I just tried using a shorter length FIR and running noise through it, and there's definitely a notch at the cutoff point. Thanks for pointing that out, acreil.

Compared the balanced-FIR patch with a Linkwitz-Riley setup using order 10 Butterworths in series and the FIR one does sound better. May well have done something wrong though.

10th order seems like a little much. That would give you a quite long impulse response, and a lot of phase shift. You don't need an extremely steep slope.

Ah ok, 2nd order sounds a lot better.

1. sounds a bit like bridging both outputs of hte amp into one channel. Too low an impedance coming from the speaker and the amp will get very hot!

i am just beginning with pd, so cannot offer much about tricks, but have done sound system engineering for years and years. fir filters are nto typically used for subs because of latency times. 24 dB/octave linkwitz-reiley filters are the most commonly used and probably the best starting point.

how well do the tops integrate at the crossover frequency?

@je305 said:

I've been running a two speaker setup for a while, but fancied a bit more punch, so I bought a passive subwoofer. My amp doesn't have a special subwoofer output so it's a bit tricky to separate it, and I can only pass signals between my PC and the amp using a 3.5mm (stereo headphone type jack) to phono cable.

What Pd is doing for me is inverting everything <100Hz on one side so that the bass signal is out of phase between left and right. Then I can get my bass separation to the sub in one of two ways:

1. wire the sub between the positive terminals of L + R speakers (L+ to Sub+, R+ to Sub-). Only out of phase signals will cause a potential difference, so the bass signal will pass through the subwoofer because I made it out of phase.

2. Read up on how Dolby Surround works - basically the rear channel is encoded in a very similar way to how I've encoded the bass. By plugging my subwoofer into the rear output of my amp (which has only stereo inputs but dolby pro-logic and surround outputs) I get the bass signal through the sub.

Both of these worked in practise, but number 1 was more successful - it sounded brilliant, the sub giving it some punch and all the higher frequencies through the smaller left and right speakers. I'm going to be fiddling with setting for a while yet to optimise it, but really happy at the moment.

One thing I need to do is learn how to use Jack, because I currently have to use a wire from out->in on one of the soundcards to make it an input in Pd. That should cut a bit of noise and latency out, although I can't hear any noise and the latency is 50ms, but it might help.

*edit: I have no idea if this idea has been incorporated into commercial sound systems or not - does anyone know? After reading how Dolby worked it seemed the obvious solution.

It's different to bridging both outputs of the amp into one channel (which I did do at one point, it triggered the overload cut-out). All the connections between the terminals go through a speaker, so no short-circuiting is possible.

I've been running it with Linkwitz-Riley filters for a few weeks now and it's performing really nicely, so I'm not going to dabble any more (I have a degree to be doing instead now!)