I've recently had some time on my hands to finally work on converting my Kato locos to Loksound V5
I have around fifty Kato locos of various types to convert, so I decided to design and 3D print my own speaker chambers — which proved a good project to learn AutoDesk Fusion 360 CAD software, and get to grips with my 3D printer. I have also spent a lot of quality time milling frames to make room for the speakers and keep alive capacitors (the last time I did any metalwork was 30 years ago at school, so there was a bit of a learning curve).
I decided to do some A/B testing to compare various speaker types, speaker orientations, and enclosures using a pair of identical loco testbeds…
Bill of materialsLoco testbeds: Kato SD40-2 (Early) Snoot Nose x2
Speakers: Soberton 8x12mm [SP1208]
https://www.digikey.com/en/products/detail/soberton-inc/SP-1208/6099104 CUI 9x16mm [CMS-16098-30-SP]
https://www.digikey.com/en/products/detail/cui-devices/CMS-16098-30-SP/6243982 (note that there are some slightly newer versions of this speaker now available)
Ole Wolff 9x16mm [091630LA-8B]
https://www.digikey.com/en/products/detail/ole-wolff-electronics-inc/OWS-091630LA-8B/13683680Decoder: ESU Loksound V5 Kato [58741]
https://www.esu.eu/en/products/loksound/loksound-5-micro-dcc-kato-usa/Keep Alive: Iowa Scaled Engineering Run-N-Smooth PowerKeeper (940 microFarad)
https://www.iascaled.com/store/ModelRailroad/Run-N-Smooth/CKT-DCCSAMilling Machine: Proxxon MF70
https://www.proxxon.com/en/micromot/27110.php3D Printer: Anycubic Photon Mono X 6K SLA printer with standard Anycubic grey resin
https://www.anycubic.com/products/photon-mono-x-6kI started off by designing and printing speaker enclosures with the maximum possible internal cubic volume that I could shoehorn into the Kato SD40-2 (Early) frame.
The upper rear "shelf" of the frame has the biggest available volume, and I milled a separate space for the keep alive in the fuel tank…
[ Guests cannot view attachments ]
My initial designs achieved an internal volume of approximately 1250 cubic mm, and so I was feeling pretty confident. I left room for the stock Kato rear glass for the headlights and number boards, and created a mount for an SMD LED (as many others have done). All speakers were sealed with CA, and the outward firing versions had their wire holes up sealed up as well.
[ Guests cannot view attachments ] [ Guests cannot view attachments ]
[ Guests cannot view attachments ]
I did some fairly exhaustive A/B tests and have come up with a few interesting results. I ended up going down a bit of a rabbit hole of design iterations and further testing…
[ Guests cannot view attachments ]
I've made a series of comparison recordings of some of the better sounding combinations of speakers and chambers using a Sennheiser MKE600 shotgun microphone. It might seem strange, but I ended up loading a Dash 9 sound file onto the decoders for testing, as this has a deeper engine note that makes it easier for me to hear how much bass extension a given setup achieves (the SD40-2s will get the correct EMD 645E sound file once I'm done with this test phase).
Observations:1. All three speakers sound better firing inwards (i.e. with their wires on the outside) rather than firing outwards (i.e. wires on the inside). The outward firing versions all suffer audible muffling of some frequency ranges which is particularly noticeable when playing the horn sound. This effect was reproducible for both the 8x12mm and the 16x9mm speakers across a range of enclosure types. Doing a bit of reading, these cell phone speakers seem to have been designed to fire inwards (and there are versions made with peel-off sticky surrounds that are only available in this orientation). This is a convenient fact, as it makes wiring up the speakers and ensuring a good cabinet seal a lot quicker
These recordings compare identical setups with the only change being the speaker orientation:
Soberton 8x12mm inward vs outward firing:
Ole Wolff 9x16mm inward vs outward firing:
2. All three speakers (in both inward or outward firing orientations) produce an audible hiss/distortion when playing the prime mover sound above run 3 (and especially so when sounding the horn as well). The hiss/distortion is still audible running the speakers at very low volumes — less than 30%
I tried designs that fire downwards into the chassis, and upwards into the shell. In all cases care was taken to make sure no part of the speaker diaphragms touched anything, and that the speaker diaphragms didn't get any CA on them.
I found this to be highly dependent on the amount of free air around the exposed side of the speaker. On the workbench, I found that the hiss/distortion drops off as you give the speaker enclosure a bit of clearance relative to a flat surface, and then comes back once you move towards completely free air. There seems to be some form of interference from the sound waves bouncing off a close surface and interacting with the speaker. It appears that there is a balance between the internal volume of the enclosure (the "speaker cabinet") and the space around it (the "room"), and the reinforcement that this offers.
In the end I tried a series of speaker enclosure designs that included differing amounts of free space between the speaker and the shell in an attempt to minimise this unwanted effect. My final iterations of this process leave 3mm of free space above the enclosure (leaving an approximately 500 cubic mm space above the speaker inside the shell). This is counter intuitive as it leads to a much smaller internal volume for the speaker chamber itself, but sounds way better to me — especially in Run 8 (and with the horn) where this effect otherwise leads to the prime mover sound becoming a "roar" of the higher frequencies all blending together.
This recording compares the same Ole Wolff 9x16 speaker in my original "max cubic" design versus my later "balanced cubic" enclosure (both cases are inward facing with identical decoder settings)…
This is probably one of my most subjective design choices. To me, the "max cubic" clearly sounds better when soloing the horn, compressor, or bell, but once you add the prime mover, the balanced design avoids a lot of the high frequency hiss/distortion (albeit at the loss of some detail in the horn and bell). In this case the recording doesn't really do this one justice — in person I find the difference is very clear as soon as the prime mover is on. The balanced version effectively sacrifices treble and detail to achieve more bass.
This recording compares the Ole Wolff 9x16 speaker in my later "balanced" enclosure with and without the loco shell present…
The shell is doing a good job of reinforcing the speaker — I'm definitely not going to be drilling any holes in my loco shells or fuel tanks.
3. The 9x16mm speakers with a smaller enclosure volume consistently outperform the 8x12mm with a larger enclosure volume when it comes to bass extension. The Soberton 8x12mm speakers have a noticeably "brighter" sounding treble that can be very harsh depending on the sound file used. The 9x16mm speakers reach quite a bit lower, and to my ear create a fuller representation of the prime mover rumble…
Soberton 8x12mm vs Ole Wolff 9x16mm:
Soberton 8x12mm vs CUI 9x16mm:
Again, the horn and bell sound better soloed on the Soberton, but as soon as you add the prime mover, the 9x16 generates more bass and GE chug™
At Run 8, the Soberton has a lot more high frequency going on — which is a big part of what I find fatiguing about these tiny speakers. If you are mainly switching, perhaps the Soberton would be the winner.
4. The new Ole Wolff 9x16mm speakers are a lot more sensitive than the 9x16mm CUIs and therefore are a lot louder at the same decoder setting. For all the recordings, I ended up matching all three speakers to the same sound pressure level using a meter. I had to reduce the master volume by 35% for the Ole Wolff for all my tests. Once matched, the differences between the CUI 9x16mm and the Ole Wolff 9x16mm are quite subtle. I prefer the Ole Wolff as it has lightly more detail, and is better able to cope with multiple sounds playing at once without distortion…
CUI 9x16mm vs Ole Wolff 9x16mm:
5. I found that thinner walled speaker enclosures were more prone to ringing and buzzing. I have settled on 0.6mm as the minimum wall thickness, and added 0.5mm fillets to all the internal edges to increase rigidity.
Just as with Hi-Fi systems, locomotive speaker performance is obviously a very subjective field, and what sounds good to me might not sound good to someone else. In some ways, this tuning odyssey became mostly about tuning the speaker enclosure design to minimise the effects that I personally dislike. I find high frequency and distortion to be very tiring to listen to, even though I run my Loksound decoders with the prime mover sound set fairly quiet.
The final prototype designs incorporate a whole bunch of changes to geometry and refinements based on all this testing. I've also managed to simplify things further by locating the 9x16mm speakers where their spring contacts can be bent to be soldered directly to the ESU 58741 Kato board, which creates a combined drop-in decoder and speaker which makes loco maintenance a lot easier…
[ Guests cannot view attachments ]
[ Guests cannot view attachments ]
(The BLW logotype started as somewhat of a joke with some of my N scaler mates who nicknamed my obsessive working on loco internals as "Benson Locomotive Works").
In summary, I'm going to use the Ole Wolf 9x16mm for all the locos that can fit it — as it runs with the lowest current and sounds similar to the CUI.
I'm going to try a few ported designs this week to see if bass can be extended any further — but I think there is not much more to be found with such tiny enclosures.
I'd like to say a big thanks to a number of Railwire members who have strongly influenced me to embark on this project — the information from
@jdcolombo @RBrodzinsky @Steveruger45 @nightmare0331 and
@peteski has been incredibly helpful in getting to this point. I hope this post adds something to the growing body of N scale DCC sound info that The Railwire hosts
Cheers
