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I took advantage of this holiday season to build my first board, and incredibly the time from first parts procurement to a finished board was just under 3 months.

This post is a summary of the entire build process because Discourse sucks for drafting, I have a far more detailed but boring build log that I maintained during the build process in a blog. If you’re interested in that, feel free to check it out here.

Pictures

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Requirements

Parts

Build

The build kicked off with the purchase of the uBox, as the price was going to go up, and I decided to go with it for futureproofing. It seemed like a solid product, and so far it's maintained that reputation. Then goes another two weeks-ish, when 11.11 started. That kicked off some more purchases, including the Flipsky motors, which were only $65 each! Then another lull until Black Friday and the week after, when I got the MBS complete, motor mounts, batteries, chain parts, and enclosures. The other odds and ends came from Amazon, so they were ordered here and there as I needed them.

Thanks to logistical delays, the board itself didn’t ship and deliver until Christmas Eve, and the batteries were stuck in a USPS distribution center for well over a month. I couldn’t do any building without the actual board, and I couldn’t test the electronics either without a battery, so the build really started around Christmas.

After getting the board, the first thing I did was start on the chain drive. I had designed and 3D printed a jig to match the bolt pattern of an MBS hub, but I wanted an actual hub to compare it against just in case it was off slightly. It looked fine though, so I drilled out the hole pattern on the wheel sprocket. However, it turned out that the center hole was ever so slightly too small, so I had to ream that out with a step drill bit, which was a bit of a pain. Once that was done however, I attached the sprocket onto the hub with 65mm bolts, with 2 10mm spacers in between.

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Then came the motor mounts, which were fairly straightforward to install. It was kind of confusing to figure out the correct orientation however, as most sides were generally right, but one face was much flatter than the actual hangar profile. As such, when tightened, only 3 or 4 sides of the clamp actually contact the hangar instead of full contact. Seems pretty strong though, and I was worried that if I tried to round it the mount pattern wouldn’t align, so I didn’t try fixing that face. There is a tiny bit of bite from the clamps when I lean all the way, and I haven’t really figured out a good solution for that yet aside from chopping the corners off the deck. I’ll need to think about it more.

The enclosures were tricky to position, but once that got locked down, it was pretty easy to make. Because I didn’t want to shorten any of the ESC or motor wires, and I didn’t want any connections outside of the enclosure, I elected to place the ESC backwards in the enclosure, and use the length to take up wire slack. The ESC is also slightly off center to make room for the power switch, and so the power could reach the exit way off on the side. I also fiddled with the battery box orientation, before settling on the long side matching the board because the sides of the box were flat, while the front and back had ribs, which would make exiting a connector difficult. The XT90 holes were cut with a dremel, and I glued on 3D printed panel mounts using waterproof silicone adhesive. The motor umbilicals came through holes in the back of the ESC enclosure cut with the step bit, and are sealed using cable glands. As a side note, I accidentally drilled them slightly too close here, so you can’t tighten both at the same time. I call it an antivibration feature, although in the future they should be at least 2mm further apart. The enclosures and board then got some industrial outdoor Velcro to keep them together, and it’s surprisingly strong.

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Final things included soldering a bridge cable between the battery and ESC enclosures, and cutting the chain for the drives. The soldering went shockingly well, as I did not anticipate my cheap 25W (or 40W, models look identical so not sure) Weller with a conical tip getting close enough to heat through 10 AWG. Yet it managed to fully tin the ends, and the connectors as well. Unfortunately I went too hard with the solder, and accidentally overflowed out the connector a little so the little end cap doesn’t go back on. I ended up snipping as much of it off, and then taping over the gap. As for the chain, it took me 3 hours and two ruined punches to get three of the pins out without a chain tool just so I can get 2 lengths of 18". Get a chain tool, you’ll thank me later.

VESC programming was a little challenging, as you’ve probably seen a few of my questions on the noob thread. I had (and still have) no idea what I’m doing, and it took a few tries and reflashes before it was set up properly. I have it currently set to 65/-65 for motor, and 80/-20 for battery, so we’ll see how that goes. I’ll tune it as I keep on riding and experimenting.

First Ride

Conclusion

Reserved for idk what yet

Great achievement on a budget!!

Did you notice any slippage on the velcro at all? Id love to use velcro to hold a peli down but seems risky

Nope, their industrial stuff is pretty sturdy. The hooks are different from normal Velcro, with two barbs and a thicker stem. I’ll have to see how they hold up long term, but I’m not removing it often so I think it should last a while. It’s supposed to be good for 1lb per square inch, and I used 15 sq in for the battery enclosure, which should be ok since gravity keeps it in place as well.

Velcro losses its velcro-ish-ness when exposed to the environment. I heard reports of battery boxes falling off with 3M dual lock which is supposed to be the strongest of velcros. Vibrations are the killer here.
Make sure to have some sort of extra anchor point!

Also super nice build, great example of price/quality ratio I’ve seen yet for a MTB!

Hmm yeah I’ll keep that in mind. There’s lock holes on the box, so I can tether it to the binding through those just in case.

Definitely a lot of things to get used to but a great build to price ratio.

For the throttle jolt, try messing with the negative throttle ramping speed (or something very similar near throttle curve mapping)

I was thinking about building something similar with the MBS Comp 95 Mountainboard complete. how did you get the 20% off coupon?

It was an old code that expired in December. Even still, the regular permanent 15% off code for this forum (ESK8BUILD15) is pretty close.

This is a fine example of quality to price ratio wholesomeness. Good job!

I do it. It’s fine. Never budged, even after hard falls where the board rolled head over heel on asphalt.

Honestly I attribute that to how far this hobby’s come along in a short while. The fact we can get $250 VESC75/300 ESCs and decent sub $100 motors would have been unthinkable even one or two years ago. Even in the prebuilt space, the boards have come a long way.

would you mind linking the chain drive components?

Sure thing, although looks like the exact wheel sprocket is OOS. You can also most likely find everything cheaper elsewhere, but hey free Prime 2 day shipping.

Wheel Sprocket: https://www.amazon.com/gp/product/B06WGQFY77/ref=ppx_yo_dt_b_asin_title_o07_s00?ie=UTF8&psc=1
Motor Sprocket: https://www.amazon.com/gp/product/B07RB2R767/ref=ppx_yo_dt_b_asin_title_o05_s00?ie=UTF8&psc=1
Chain: https://www.amazon.com/gp/product/B07NPNFDRP/ref=ppx_yo_dt_b_asin_title_o06_s00?ie=UTF8&psc=1

If I were to build again I would have gone straight for the 12 tooth motor sprocket instead. 10 is great for off road, but a little slow on the road and noisy. 12 should be a much better hybrid gearing.

Learned a bit about the limitations of Velcro today. I used a little bit to mount a tail light to the rear enclosure so I could easily remove it when going offroad or to charge it, and while it holds up fine during regular riding, it fell off during a jump. Looking more closely, it appears that in this particular Velcro, the hooks are directional, and are facing sideways rather than vertically. Had it been rotated, it might have held better. Also, the surface area is pretty low and it’s mounted at an angle, which doesn’t help. I believe 3M dual lock should hold better in this application, where there is no expected flex in either component.

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Also printed a GoPro mount for the front of the deck just because. Footage angle isn’t terrible, although I think I need to shim it with some tape to reduce vibrations, as with a dive housing it just sounds like bass boosted wind noise at any speed. It almost drowns out the drivetrain noise, which is pretty impressive considering this is a chain drive. I tested with a generic action cam for the maiden ride, gonna swap to my actual GoPro to see if it improves.

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Finally got my complete today. Thanks for telling me the coupon!

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I am wondering if you have had any issues with the plastic trucks on this board. I just watched a video where a guy snapped them. https://www.youtube.com/watch?v=gzbokRtZcEk

Haven’t had any problems yet, but I’m fully expecting it to fail eventually. At that point I’ll switch to the metal baseplate, and order other stuff off MBS to reach the free shipping threshold.

how long have you had them for?

A little over a month. Not as much riding as I’d like due to the weather, but got a lot of practice hopping around on the board in the yard. Totally see why heelstraps are nice, and looking forward to get some in the future.