@Booger weldz I remember I saw this layout before. It looks pretty good for the size! How does it look with the front panel attached? Do you have any built with this layotu and pictures of it? Thanks and I am sorry for the off topic, we may move somewhere else if you can point me to.
Ok so, segment 1 is a resonator? Cause do not have an out,
Segment 2 is the actual horn length ? Or TL length cause do not have an increasing area so I not a horn but a transmission line right ?
And in horn resp you modeled as OD ...offset drivers
Why i don't see the dual driver sim cause there are 2 drivers and..what drivers are those?
8" ? 6.5"? Tang Wangs 🙃
I can see small volume but long horn length 3mts. The freq response is wide and smooth DSP processed like 🙂.
Yeah I'm learning just by seeing a lot of hornresp graphs 😁
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It’s still the ‘TL‘, but exciting it Further down stream @ the pressure node for 86.4 hz (1 meter out of 3 total ) essentially you get the 1/4 and 3 x 1/4 and bandwidth extends to the 5x 1/4 (cancelation notch) Instead of merely the 3x.
you can still see the ~slight~ ripple in that area of response.
sim in OD mode with 0.1 cm in L12 instead and it’ll have that big nasty cancelation notch @ 86.4 instead of extending to 144hz (5x the Fb)
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Hey Brian, how are you progressing with developing this - any further updates?
I've had a growing interest in your ODTL work, striking a good balance/compromise of output for the not-so-strong drivers out there.
Really curious to learn of your findings once it's built, and maybe one day I'll try and adopt this specific design (with minor dimension tweaks) for my own use.
Trying to get someone to build it now. No luck yet. And I'm being distracted by an offset driver series-tuned 6th order BP idea that I came up with a few days ago... 🙂
I’ll make anything you want, can even purchase the same driver if it’s ‘cheap’ . Compare notes from afar. I could stand to learn a lot more this way too
