Just because it would be easier to store or fit in the trunk of my car if i want to bring it to my moms place in the countryside, or something.
Can't remember what your vehicle's purpose was though.
This whole project is just because i got a bug to build something for fun, i like building stuff, computers, rc planes/drones/cars, tabletop miniatures and i also like riding mopeds.
If this works right/proves reliable im probably commuting to/from work on it, about 16km/10 miles each way, weather permitting.
Why you only want 20km/h.
20kph is because im aiming to have it in the no license "elsparkcykel"/e-scooter bracket within the regulations here, basically the same rules as for bicycles.
Why 36V? Why starve the motor with only 20A? Was it for economy?
I guess economics would be the closest fit, initially i was aiming to use a couple of 36v hoverboard wheel/hub motors bolted together in a dual motor hub "frankenrim" using 3d printed spacers, it worked but was severely low on torque and on the second test drive one of the motor burned up. Hence my reason for erring on the side of going for a beefier motor than is probably strictly needed for the application.
(and i might try electrifying my Crescent 2000 using it or similar at some point)
I snagged two 36v, 11.6ah batteries for 50 bucks each.
20a for now because thats what my controller will do sustained and that comes out to whatever C draw (something like .85?) i mentioned earlier when running the batteries in parallel, i expect that these batteries arent high draw specced as they were made for ebikes with 36v/250w motors.
There's a bit of weight in your vehicle, so your 20A will be lacklustre for takeoff, and not do your motor any favours up inclines (which will cause it to bog down in low RPM).
Not targeting burnouts or drag racing, im hoping the small motor sprocket, large rear sprocket and relatively small wheel will allow it the torque to maintain RPM and, at least some of the already low, speed when climbing as there are a few hills on the way to work.
I don't know too much about 16" rims and tyres. 305mm rims?
16" tyres with 9t->64t gearing giving about 50kph at 48v were in the example given for the motor and ive seen people reporting it to be relatively accurate.
Im using 13" tyres on 6" rims, 33cm outside wheel diameter, this build is essentially a slow electric version of the classic simple 60ies/70ies US style minibikes, a type of vehicle which ive always thought neat but that arent a thing here in Sweden.
48v to 36v gives -25% so 37.5 km/h, which is total loss from decreased power but
Then 64t to 74t gives +15% in torque at the lower speed of 32.5km/h
Then 16" to 13" gives +19% in torque at the lower speed of 25.6km/h
Coming out to a speed which is about 25% above my targeted 20km/h, which i would limit down to using the controller.
With the extra torque from gearing+smaller wheel im hoping this is reasonable, but i wont know until its together.
Im gonna get it together with the parts ive got now to see how it does but im already itching to pick up a VESC to enable regen breaking, not because of the regen itself but just for the simplicity of using to motor to brake during regular driving, obviously the front disc brake will be applied for quicker stops.
Last night i got the tube and tyre on the rim, it is indeed a little bit on the slim side but it doesnt look like there will be more than 5mm or so of shimming out the sprocket for it to work so im going to give that a shot.
