Difference between revisions of "Electric Longboard"
(Added budget) |
Jacobfrank (talk | contribs) (Created a Budget header) |
||
| Line 10: | Line 10: | ||
==Challenges== | ==Challenges== | ||
The challenges we expect to encounter will be creating a reliable Arduino code and circuit build, learning how to soder, and mounting the engine and drivetrain. Also making sure our accelerator is reliable, light, and intuitive. At the moment there are many factors we are unsure of and will end up having to adapt to. | The challenges we expect to encounter will be creating a reliable Arduino code and circuit build, learning how to soder, and mounting the engine and drivetrain. Also making sure our accelerator is reliable, light, and intuitive. At the moment there are many factors we are unsure of and will end up having to adapt to. | ||
| + | |||
| + | ==Budget== | ||
{| class="wikitable" | {| class="wikitable" | ||
Revision as of 22:28, 12 February 2016
Project Overveiw
For our project we will be using a combination of premade materials and custom builds in order to create an ideal electric long board riding experience, which can be controlled with one hand. Using Max’s old long board we will mount an engine, circuit, and batter packs, while also attaching drivetrain to one wheel. We will use the curve of the long board's body to create a custom system.
Objectives
The primary objective of this project is to create a functioning electric long board that will be able to travel at moderate speeds for a few miles at a time. We would also like to create our own hand-held controller using an Arduino and XBee. Using 3D printing we hope to create a custom mount for our engine, and design from the bottom up, a remote to moderate our boards speed. In the case that we finish early we would also like to potentially add regenerative breaking and headlights to our circuit.
Challenges
The challenges we expect to encounter will be creating a reliable Arduino code and circuit build, learning how to soder, and mounting the engine and drivetrain. Also making sure our accelerator is reliable, light, and intuitive. At the moment there are many factors we are unsure of and will end up having to adapt to.
Budget
| Item | Price | Vendor |
|---|---|---|
| Arduino UNO REV3 | $33.10 | Arduino |
| microtivity IB181 170-point Mini Breadboard | $5.99 | Amazon |
| LED Display Voltmeter ( 3.5 - 30V ) | $3.11 | GearBest |
| KD 53-20 High Voltage Brushless Outrunner 240KV | $39.48 | HobbyKing |
| ZIPPY Flightmax 5000mAh 3S1P 20C X2 | $46.40 | HobbyKing |
| XBee Modules | $19.00 | Mouser |
| Drive Train | $50.00 | TBA |
| Total | $147.08 |
