How about adding a Capacity bank with 1 way diodes and resistors slow charge quick discharge to compensate for the lack of amps
Would give you the amps to pull off well
How about adding a Capacity bank with 1 way diodes and resistors slow charge quick discharge to compensate for the lack of amps
Would give you the amps to pull off well
The voltage drop across diodes mean they are going to burn off a lot of energy as heat, unfortunately.
So a inductor and diode in parallel conected to a capacitor bank that’s T off from the main ESC input wouldn’t work to smote out the burst the battery sees?
I got my inner Chiled to make up my first electronic circuit
You might be better off with only the capacitor physically close to the ESC FETs
The voltage drop across the diode is going to be a huge problem for that setup.
My consent is with the vesc pulling amps and the capacitors that’s a higher load on the battery defeating the objective
Unfortunately, this cool idea cannot be used that simply, since there is no parameter in vesc tool like “max energy overcurrent mode”, but that would be cool though.
Moreover, maximum energy stored in vesc caps, for example, is 2.5J, that can give me additional 70ma for 1 second @ 36V. Not that much at all. But still this is as cool as Williams’ flywheel.
Drill holes in the trucks baseplate
Actually, chose the smaller wheel is the factor
Don’t you find riding an ev with 70mm wheels kinda scary?
83mm wheels are capable to ride over some obstacles, but nothing significant. 70mm are 20% even worser if you look at the curvature.
83s with spokes weight roughly 25% more than 70s without them, so that is the price that you pay for it.
Moreover, these 25 percents result only in 170g which I wish to carry with me to save me from falling.
Any shortboard/small builds, i’d go with Caguamas, Kegels minimum
Lol please don’t do this.
This reminds me of those crazy bikers that religiously weigh every single hair on their bike to shave weight
I would beter optimize the deck’s weight.
Currently my idea is creating a plywood frame that work only as thickness riser and frame for the fiberglass to atttach to. And it’s litterly gonna be a ‘frame’, coz more than the half of the material would be removed from it. Why I want to increase thickness, you may ask. Well, according to the theory of strength of materials, curvature is counter-proportianal to the inertia momentum, which for the rectangular rod is proportional to the thickness qubed. Double the thickness and curvature drops 8 times… This property gives me an abillity to use just a few layers of fiberglass over the frame, so deck literraly can weight 2 pounds.
That is my concept, will post pics soon.
While I was designing deck’s shape, I’ve realized that my board is almost a replica of the Arc Aileron v2.0. Same weight, same motor size, same phylosophy, actually. So, I’ve decided, that I want to name it like the part of the wing, bc technology of making the deck is almost the same as planes’ fuselage. And… Bingo!
The Wingtip
Not only it is as small as the wingtip, but also it is going to be painted in black with bright orange details like the wingtips painted in bright colors:
Pretty nice, imo
@KaramQ I wanna try this out sometime when we hang out, methinks a mini build lies in my future somewhere. They look fun
Mine is fun, slow, can barely do hills lol. It’s the perfect grocery commuter tho
The theory is right.
Then again plywood is not light. For better utilization of thickness use foam.
Either way don’t forget about localized stresses/buckling with too thin layer.
Dani