Another good reason to fight DRM: https://www.defectivebydesign.org/.

Several times recently I have seen hunters and campers using E-Bikes to extend their range into the forest. From what I can tell they use a cargo trailer for gear as well as extra batteries.

It will be interesting to see what other uses being find for E-Bikes as ranges increase.

With a typical sized Dutch man, stopping from full speed is going to be a real test of the brakes...

For the same reason I don't like scooters on bike paths, I wouldn't want this sharing a bike path with me. When heavy fast vehicles and regular bikes collide, the regular biker usually suffers more.

I've found the most difficult thing about riding an e-bike is the other motorists have no idea how to react to you. You're not really a regular bicycle anymore due to your speed, but you're also not a motorcycle that deserves its own lane. I have at least one car turn in front of me almost every trip out just because they're misjudging my speed. I get honked and yelled at when on the road because folks get frustrated when I'm using the left-hand side of the right-turn lane as a bike path.

Sidewalks/bike paths tend to be a lot less safe in residential areas as well, since cars coming out of their driveways really don't expect an e-bike to come rolling through. I've learned to dramatically reduce speed in areas like this.

Aside from those things, I love it! I ride the e-bike whenever I'm going somewhere in range (I live in Florida so things tend to be spread out) and the weather permits. My bike gets about 80km which is more than enough for anyplace I want to go on a bicycle anyway.

That's a solution, I suppose. Not one that I would pursue, but I'm glad the author got the pack welded without any injury.

Also glad to see there are still real makers in the world. Makers do, period.

Another type of person would've asked for 10M of seed funding for "a revolutionary way to commute to work, target market: the whole world" and would've delivered nothing after 2 years of "working really hard on it".

In order to support the weight of the motor and batteries these bikes tend to be really beefy and top out at around 50 lbs. Not sure how much your extra batteries weigh - but if you exhaust the batteries on a 50lb bike you need to make sure you have a super granny gear to get you home if you have hills.

I’ve run into the same issue that standard battery packs on eBikes are just not enough. The problem is not so much needing to do super long trips but if you forget to charge one day, you’re going to be stuck the next. Luckily it’s become more common for OEMs to offer dual battery setups with the piece of mind of extended range but also having a warranty! We own two cargo eBikes in the family and both have two Bosch batteries. Range varies from 80 to 200 miles depending on level of assist and is more than enough for our daily ~20 mile errands.

This is a cool project, however, I wouldn’t have gone this route because:

It isn’t a great idea to lock up an ebike, but there are circumstances where you might want to and you’ll want to take the battery with you when you do.

If you need added capacity, I’d recommend a second battery to swap in during a longer ride. This can limit the size of the extreme failure should that occur, and let’s you choose less weight for shorter trips.

Finally, there are some quality battery builds out there, in a variety of shapes that include enclosures offering some resistance to shock.

Besides all the testing and perfect wiring here, you can rely somewhat on the seller to back up their work.

Reading OPs own multiple mentions of live bomb, more than a little bit scary, "especially given where it is located" makes me nervous just looking at it!

Hopefully op says the casing trespa has enough protection so they can get off it it catches fire or the ali express balancer breaks. From what I've read managing the batteries is a big part of tesla's success.

i bought a Onewheel-XR+ a few months ago and then found a lot of reddit threads about how the mfg DRM'd the controllers to prevent people from adding longer range batteries and buildig their own apps to do diagnoatics over bluetooth. they sent cease/desists to several prominent modders.

it's super sad. the modding community was very vibrant until they kneecapped it via firmware updates.

their android app is bloated 42MB crap with social features that requires an internet connection and google's framework to connect over bluetooth to the board under your feet to read battery levels, change riding modes, control headlights, etc. previously there were third party apps < 1mb that could be used offline for this, until they crippled everything via firmware updates.

now they released their new GT boards a month ago with extended range (and much heavier). the new Pint GT looks really compelling, so really torn about giving these sh*theads more of my money :(

https://old.reddit.com/r/onewheel/comments/l2vhra/future_mot...

https://old.reddit.com/r/onewheel/comments/kcl816/4209_or_ne...

With the capacitor module, you can easily power it with a lab bench power supply.

I built our ebikes around regular bikes using a TSDZ2 torque sensing motor and an em3ev 52V battery. Total cost around 600$ + bike + tools. The battery is already assembled so no risk of setting your house on fire. The torque sensing makes it really natural (like having bionic legs), the whole thing has an open source firmware if you want to replace the Chinese made one (https://github.com/OpenSourceEBike/Color_LCD) and you can use any battery with it. With a 850Wh battery we get around 100km range.

There is also the cyber bike for which you can buy plans and build from scratch but that one is more of a motorcycle and you’ll probably need certification + insurance to use it legally.

One thing: After years of riding various bikes I've built, please for the love of everything, be careful at high speeds because I've discovered the weakest point of the bike is the C shaped thing at the end of the fork for the wheels. At super high speeds the bumps are rougher on the bike and will eventually pull it apart, even with mid motor power. It may not even come apart all the way, but spread open slightly. Maybe millimeters.

I've tried several bikes, offroad and everything. It won't happen now, but like at odometer 6000 or something. Every single time it fails there. I've had 3 bikes, various scooters, all fail that way. It means your wheel may eventually, suddenly come off at a high speed. I think the answer is a custom fork, but haven't gone there yet.

I'm jakecodes on twitter if you want to trade knowledge.

Full speed to stop is pretty good too, I did a couple of e-brakes to see how the change of weight and COG affected the bike. Stopping distance is a bit longer, it doesn't kick out when braking hard in a corner more than it did before, and - not surprisingly ;) - it transfers a bit more weight to the front when you hit the brakes hard.

But compared to a scooter it is much lighter and compared to a normal e-bike it is only 5 Kg heavier (29 vs 35 Kg).

I don't like riding in traffic mostly because drivers tend to have a short fuse for anything that isn't exactly at the limit, but on bike paths everything works just fine. The problem is that s-pedelecs are technically lumped in with the scooters, even though there is no throttle and there is absolutely no way you are going to sustain 40 Kph+ for anything but a very short period. But they're still pretty new and little by little municipalities are adapting and allowing s-pedelecs to use the bike lanes. What helps is that s-pedelec riders are extremely defensive. In town I simply reduce the assist to 'eco' and cycle with the rest of the bikes, and on the intercity bike paths I go as fast I conditions allow, typically 35 to 38 or so. On a longer trip that averages out to 33 to 35 Kph, which means a 1 hour car trip turns into a 2 hour bike trip, which is acceptable (and never traffic jams, which can turn that 1 hour car trip into a three hour car trip!).

This is the main reason if you might ever buy multiple ebikes in your household, buy a drivetrain brand that has generic, swappable batteries that can work on all your ebikes. Buying batteries is expensive (~$1,000 for Bosch).

For example, some ebikes don't have swappable batteries (either they're integrated or are a no-name brand).

The Bosch Powerpack, on the other hand, is ubiquitous and swappable. If I'm going on a long trip, I steal the battery from my other ebike and bring it along (I have a Surly Big Easy cargo bike and a Trek Verve+ 2. My SO also has a Verve+ 2).

Another benefit on buying ebikes with the same powertrain manufacturer is the battery lock can be keyed alike. It simplifies a lot.

(Oh, one last thing! If you go with Bosch, you can get the battery locks keyed alike to Abus U locks.)

Ironically, the only time I ever really got zapped was when I was connecting a scope to what I thought was the ground terminal of a very large high voltage power supply. The only slight problem was that it was a positive ground system...

I'm sure it'll be fine if you stick some high end mountain biking disk brakes on there. I suspect you could also use the moter to bring it to a sharpish stop.

Will look at the Vado, thanks for the pointer.

The top speed (with assist) for class 1 & 2 e-bikes is well within the speed range of a regular bicycle. 15 MPH is considered a reasonable average speed for beginners, and 18-22 MPG is not out of the question with training. I've ridden my own e-bike past 20 MPH with no assist on occasion, and being a foldable model designed for electric assist it has a higher mass, smaller (20") wheel radius, higher rolling resistance (due to low-pressure 3-4" tires), and lower gearing than your typical non-electric commuter bike.

> … but you're also not a motorcycle that deserves its own lane.

Bicycles should have their own lane, whether electric or not, regardless of speed. It's not safe to share the lane with another vehicle.

The added weight is 130 times 50 grams + the weight of the enclosure. 170 batteries in there, but the original battery already had 40 of those.

Agreed that you don't want to pedal it uphill without the motor running that would get old really quick.

https://www.wtsp.com/article/news/local/hillsboroughcounty/s...

https://www.electrive.com/2021/06/17/hundreds-of-scooters-la...

https://www.kcrg.com/2021/06/03/teen-arrested-for-throwing-e...

I do also ride my bike on weekends have have been riding a 650cc motorbike for 15+ years, so not at all against 2 wheels. It's just that most people on two wheels seem to have started very recently and they don't know how to behave.

... and yet another person would've bootstrapped a company off it :-)

I'm surprised I haven't seen e-bikes with an electronic immobilizer (that will either disable the motor or use it as a brake, unless unlocked with a code or physical token).

Also, when commuting you don't need "fast". A bicycle or a regulated ebike are sufficient enough given the constraints you will encounter (lights, stops...). What makes using (e)bike to commute awesome is not the speed per se, it's the reliability. You won't be stuck (= taking part) in traffic, so if on Monday you take 30 minutes to go to work, it will be the same each day of the week. No need to rush to +30kmh between lights.

Even human powered bicycles are entitled to their own lane. They are vehicles like anyone else.

At least for the earlier versions all the info was published as standard BLE descriptors, so building a third party lightweight app for that is fairly straight forward. Not sure what they're doing these days, but if you wanted to investigate LightBlue is a great app for digging into BLE devices ;)