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I would love to get some larger speakers to try out on the bench with the 58741 board.
I've done that with some Bose speakers and found the sound quality of the Loksound recordings to be quite good. You may have to fiddle with adjusting the different sound slot volume levels individually to get the effect that you want.To connect any stereo system input to a decoder speaker output, you will have to use an audio output transformer and lower the output volume on the decoder to a pretty low level, otherwise the output power amp on the decoder will overload the line-in level. It is after all build to drive a speaker directly. That said, it may not have enough power by itself to drive much more than a small speaker. IDK if there is a way to tap into the pre-amp audio signal on these decoders -- likely not, tho perhaps @peteski has looked closer into this.Ed
... my goal was not to blast the ESU decoder's output through 100W amp and Bose speaker system -- just to listen to the output through a somewhat better speaker system than our minuscule sugar cube speaker setups
I also think that in N scale sound we need to set our sound quality expectation lower than with larger scale models due to the fact that we have to resort to using those tiny speakers.
I actually find the default sounds in many HO locos to be more grating than N. Doubtless due in no small part to the volume levels set by the mfrs, as a larger model is expected to "sound big".Ed
When designing a speaker enclosure for sound installations, pay attention to the interior volume of the enclosure (in cubic mm). In general, more is better until you hit a "sweet spot" and then more is not better. I've found through trial and error that larger speakers (e.g., a 13x18 or that 9x25 you found) need an enclosure volume close to 1000 cubic mm to sound good. If you mount the speaker firing down into the enclosure, that means that a simple box enclosure needs to be about 5mm thick (not including the bottom, which will add a half mm or so, depending on the thickness of the material you use for enclosure) - 9x25x5 = 1125 cu.mm
In contrast, I find the ESU dynamic brake samples to be excellent, and with the right speaker enclosure these sound very clean and have a good low frequency extension.
I am intending to add mounting tabs to my box base like you did, but these are still v0.1 test boxes, hence the Kapton, which was never intended to be permanent. I'll try removing it. (Other than the 14x20 mm speaker, I have been testing with the shell on, and it definitely makes a difference.)
Has anyone tried making the shell be part of the box? I was picturing a design where the entire box/speaker assembly is turned upside down and the ceiling of the shell formed the base of the box, and the speaker is firing upward into the box/shell. It would require the base of the box frame be profiled to the shape of the ceiling to maintain a seal (which could be challenging), but the acoustic coupling to the shell would be much more direct and controlled. This is basically how the piezo wafer speakers are intended to work.
RE the dynamics - I'd love to see how you have set your sound slot levels on a GE project. Any chance you could post that info, maybe as a screen shot? I'm sure my dynamics could be made to sound better.