SumoBot TP: Difference between revisions
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= Overview =
= Overview =
[http://www.lvl1.org LVL1] in Louisville challenged Hive13 to join them in a Mini SumoBot competition
[http://www.lvl1.org LVL1] in Louisville challenged Hive13 to join them in a Mini SumoBot competition last (2010), and from what I hear, the folks on the [[Sumobot|House Bot ]] team put in quite a showing! This has inspired me to try to build a bot to 'play' with [[Sumobot|]]. By play, I of course mean "provide as much competition as I can."
== Background ==
== Background ==
I really do intended to put some Mini Sumo background info here (really). I think the [[Sumobot|
I really do intended to put some Mini Sumo background info here (really). I think the [[Sumobot|]] page has links to some background stuff.
Revision as of 23:52, 26 January 2011
This is the wiki page for a mini-sumo bot TP is building named 'Guard'.
Looking forward to our upcoming Mini SumoBot Competition - April 16th, 2011...
LVL1 in Louisville challenged Hive13 to join them in a Mini SumoBot competition early last fall (Oct 2010), and from what I hear, the folks on the House Bot ('Mr. Plow') team put in quite a showing! This has inspired me to try to build a bot to 'play' with Mr. Plow. By play, I of course mean "provide as much competition as I can."
I really do intended to put some Mini Sumo background info here (really). I think the Mr. Plow page has links to some background stuff.
For now, I'll just note that
- bot must fit into a bounding box 10cm square (height does not matter from the point of view of the rules)
- bot must weigh no more than 500 grams
- bot must be autonomous (no remote control)
- bot must have a delayed reaction (at least 5 seconds) to pressing of it's 'Start' button
- bot must look cool
- bot must win (often)
(The last two only apply to MY bot)
- 2 Sharp 10-80cm IR range finders
- 4 Sharp 4cm IR proximity sensors
- 3 IR reflectance sensors
- 1 momentary push button (Start)
(8 digital, 2 analog)
Basically, two DC motors in a gear box driven with H-bridges. Each motor will require 3 outputs (A,B,pulse).
- Motors: Brushed DC Motor: 130-Size, 6V, 11.5kRPM, 800mA Stall
- Driver: TB6612FNG Dual Motor Driver Carrier
- Gearbox: Tamiya 70097 Twin-Motor Gearbox Kit
- Wheels: Tamiya 70111 Sports Tires
I read somewhere that the tire hubs and the gearbox drive shafts will need to be modified to get it to fit within the 10cm bounding box. Turns out that was completely true - wish me luck.
Yes I know that the gearbox came with a set of motors, but they need to be replaced to match up with the driver I chose. Don't you worry - the replacement motors are every bit as cheap as the originals.
For my controller, as usual, I will be using a PIC16F688. "But wait, TP! That thing only has 12 I/O pins!" (10 sensor inputs + 6 motor outputs + 2 feedback LEDs = 18 I/O) Huh. Well, that's what they make shift registers for. I just love these little PICs too much. Irony Not Missed: adding the shift registers will take up more space that using a larger PIC with sufficient I/O pins.
Current Status - Active
- Parts arrived! Construction begins!
Nov 8, 2010
I have actually been rolling this around in my head since the announcement of the LVL1 competition in Louisville. Finally got started with breadboarding the control system over the weekend. I have a box full of parts picked out on www.pololu.com that I plan to order some time late next week. Hopeful I can get this bot into the ring before the year is out.
Jan 23, 2011
So much for the plan back from November!
- Basic shift I/O of the control system functional
- Parts have been ordered and should arrive mid week!
I have been kicking around ideas for wrapping the bot with a fiberglass shell. Still a thought in progress...
Jan 24, 2011
Or maybe already Jan 25...
In anticipation of the arrival of my parts order, on Sunday night (yesterday for me, right?) I decided to screw around with the control code I wrote a couple months ago, seeing as how it's in assembly and everything. Ya know, dust off the breadboarded circuit that's been patiently waiting all this time and make sure none of the wires have been accidently pulled out (several resistors were missing, actually): and my usually flaky PIC programmer just refused to work at all. I mean... really? Now? Flaky was annoying, but at least it worked more often than not. Well, it did work sometimes :)
It's always something, isn't it? I need to get one of those "I void warranties" t-shirts...
After many, many hours of combing websites and trying every combination of (computer / OS / IDE / complier / programmer software) I could cobble together without spending any money, I decided to take the programmer apart and look at the under side (bye bye warranty seal). No dice. Not sure what I was hoping to find. ANYWAY - at some point, for reasons not quite clear to me, I took apart the ZIF connector (woah - two screws and no sticker) and upon re-assembly I found that it held the chip much tighter, and of course the programmer now works...
So, hours wasted on a loose-gripping ZIF connector... but at least now my PIC programmer fires every single time!
I am SO glad I sprang the extra 5 bucks for the two-day shipping - I can't wait!
Jan 26, 2011
Parts arrived. Assembled the gearbox and tires, and started working on the layout. As expected, the drive shafts will indeed need to be ground down to stay within the 10cm box. The gearbox itself, however, takes up a lot of room regardless - where am I supposed to stick the stupid 9 volt?!
I don't think I am going to end up the profile I wanted, but I am still hoping to keep the top from being no higher than the tires.
The plan for now is to concentrate on the physical construction of the bot. I have the I/O system breadboarded out, and while it is not completely 'ready to go,' it is close enough that I know what I'm working with as far as components and what-not. I have been mostly waiting for the parts so I could try to pack everything into the space desired - then I'll finish the software.
- 9 volt battery (or gearbox, depending on your perspective, I guess) too large for originally imagined component layout
- Continue assembly
- Solder perf-board version of control system
- Complete control system software
- Ring test down at the Hive
- Tweak , tweak, tweak (oh, and work on the bot, too, right?)
- Consider, then completely abandon, possibility of soldering a REAL circuit board
- Build amazing chassis cover
- Kick butt in sumo ring