Olin university chapter/Projects/XOBot: Difference between revisions

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= XOBot =
= XOBot =
Project of Olin College. Ideas is to create a simple, low cost XO Robot and interface the hardware components with Scratch or some XO friendly graphical programming environment.
Project of Olin College. Idea is to create a simple, low cost XO Robot and interface the hardware components with Turtle Art.


== Project Components ==
== Status ==
There is now a functional prototype XOBot. The current version costs about USD175. There are already programmable robotics kits that work with the XO for that price (Namely the [[http://wiki.roboteducation.org/OLPC-XO|Myro]]). The new goal is to get the cost down to somewhere closer to USD20 and no more than USD40.

== Current Prototype(12/09) ==


==== Hardware Selection ====
==== Hardware Selection ====
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==== CAD of the Bot Kit ====
==== CAD of the Bot Kit ====
[[Image:xobot.png|XOBot]]
[[Image:xobot.png|XOBot]]

[[Media:box_schematic.png| Schematic drawing]]


[[Media:XOBot.zip|CAD Files]]
[[Media:XOBot.zip|CAD Files]]

Latest revision as of 22:26, 31 December 2009

XOBot

Project of Olin College. Idea is to create a simple, low cost XO Robot and interface the hardware components with Turtle Art.

Status

There is now a functional prototype XOBot. The current version costs about USD175. There are already programmable robotics kits that work with the XO for that price (Namely the [[1]]). The new goal is to get the cost down to somewhere closer to USD20 and no more than USD40.

Current Prototype(12/09)

Hardware Selection

  • XO
    • (+) Already available in the classroom
    • (-) heavy, requires more torque
  • Casing - Sheet Metal
    • (+) cheap material
    • (+) easily/forgivably manufactured without much machinery
    • (+) designs can easily be distributed and reproduced via the internet or mailing full-size schematics
    • (-) needs some work on safety - the metal is not sharp enough to cut but is sharp enough to scratch. It would be nice to eventually make this a plastic part
    • (-) conductive - we placed a non-conductive coating (duct tape) on the bottom so as not to ruin the electronics. Another solution would be to have a plastic electronics box
  • Batteries - XO batteries
    • (+) available where there are XO's
    • (+) can be recharged by placing them in the XO
    • (+) enough power to move the bot
    • (-) requires disassembling a computer, or coming up with a better solution for connecting power terminals - we used part of the bottom plate of the XO to ensure a good connection
  • Microcontroller: Arduino Diecimila
    • (+) easy to use
    • (-) a bit expensive - might move towards a plain ATMega168 or 328 in a low-cost version, although that makes do-it-yourself XOBot's a little more challenging
  • Motor Shield: Ardumoto(uses L298)
    • (+) just works - basically this was a time-saver
    • (-) expensive - We'll definitely make our own motor shield from plain L298's in the next version
  • 2 Motors: Beetle B104
    • These motors worked fine, but were expensive because the robot was heavy. We're moving towards eliminating the XO from robot and either pre-program the robot or use a wireless connection to send commands.
    • We also considered modified RC Servos, but were concerned they wouldn't have enough torque to move the robot.
  • Wheels - Lite Flite foam wheels
    • (+) again these worked very well with only a few small issues
    • (-) required some hacking to connect to our hubs
    • (-) picked up dirt from the ground
  • Hubs
  • Rear axel
    • We don't have one yet. Probably will just get some metal rod
  • Miscellaneous screws, USB cord, plastic connectors

CAD of the XO

Hard(er) to CAD interfacing parts (the Bot kit itself) without a CAD of the XO.

Check out XOCad !!!

Zwiebel top mostly closed render.png

CAD of the Bot Kit

XOBot

Schematic drawing

CAD Files