Instructables
Picture of How to build your first Robot ($ 85)
how to start a robot_html_29f010e9.jpg
I HAVE MADE A NEW AND UPDATED VERSION OF THIS. PLEASE FIND IT HERE
http://www.instructables.com/id/How-to-make-your-first-robot-an-actual-programma/

********************************************************************************
Update: To some 10.000 people who already read this post, I would like to apologize. When I first entered this post, I was way over estimating the prizes, due to the fact that I live in Denmark, where everything is very expansive!

The total cost of this robot was originally set to some $ 150. It turns out that the price is actually only some $85 in the rest of the world, almost half prize!!
(sorry, I have entered new prizes for the components)
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If you have any problems or questions regarding this project, please feel free to contact me at letsmakerobots.com

This is a walk through on how to make an autonomous, self-exploring, "own-mind" (not remote-controlled, not strictly pre-programmed, but reacting to surroundings) robot in a few hours.

It is really easy, and it does not involve knowledge of electronics to get you started with robot-building.

Focus in here is on the absolute necessary to get the basics covered.

This is meant to be an eye-opener, after building this, you can build anything and control any electronic device!

Sounds crazy? It is true, you just need to try it to understand how much power is in some of the chips you can buy for a few bucks today. Welcome to the world of microcontrollers :)

The programming example I write in the end is to make this robot what you would call "wall avoiding" (it will sniff around and explore based on which objects it meets, what is on the left, right and ahead), but it can be programmed into anything - easily. If interest is shown I will provide more programs for it.


Here is another using the exact same basic principles, board, chip etc. it is VERY much alike - Only I have put some more time into this one ;)

Step 1: Buy the materials (Project board, Microcontroller and starter pack)

Picture of Buy the materials (Project board, Microcontroller and starter pack)
Shopping list, start here, by this:

Links are just where I happened to find the items from a world wide web perspective. You can use any (web) shop you'd like, of course.

Prices are approx. As far as possible, try to get it all from the same shop, and from a shop located in your own country etc to get the best deals and faster deliverance etc.

1 PICAXE-28X1 Starter Pack
The 28 pin project board in this package is like a game of Mario Bros; Fun and full of extras and hidden features, making you want to play over and again. This includes the main brain, the PICAXE-28X1.

Price: 38 USD
This is a little expansive, but it is only the first time I recommend you to get this, it includes a lot of nice basic stuff, you get a CD-ROM with lots of manuals, cables, a board, the Microprocessor etc. Actually it is EXTREMELY cheap. Similar packages cost up to 10 times this price!

Be sure to get the USB-version, images in the shops may not match, and show a serial-cable when you are ordering a USB. When buying the USB-version, it is not necessary to get the USB-cable as an extra item, even though it is also sold separately.

Get it here
.
Once you have bought this one time, just buy a new board and accomplishing Microcontroller for future projects, much cheaper, you are a Robot-builder with all the basics done.

Step 2: Buy the materials (The Motor Driver L293D)

Picture of Buy the materials (The Motor Driver L293D)
1 L293D Motor Driver
The name says it all, more about this chip later :)

Price: 3 USD
Get it here

Step 3: Buy the materials (Servo Upgrade Pack)

Picture of Buy the materials (Servo Upgrade Pack)
1 PICAXE Servo Upgrade Pack
-An easy way to get a servo topped with some small parts needed for this project.

You can also get any standard servo, the pins shown on the image, and a single 330 Ohm resistor instead of the yellow chip, if you should wish.

Price: 15 USD
Get the full package here

What is a Servo?
A Servo is a cornerstone in most robotic appliances. To put it short it is a little box with wires to it, and an axle that can turn some 200 degrees. on this axle you can mount a disc or some other peripheral that comes with the servo.

The 3 wires are: 2 for power, and one for signal.

The signal-wire goes to something that controls a servo, in this case that is the microcontroller.

Result is that the microcontroller can decide to where the axle should turn, and this is pretty handy; You can program something to physically move to a certain position.

Step 4: Buy the materials (A sensor so we can see.. erh - sense)

Picture of Buy the materials (A sensor so we can see.. erh - sense)
1 Sharp GP2D120 IR Sensor - 11.5" / Analogue
11.5" or another range will do. Only do not buy the "œDigital version" of the Sharp sensors for this kind of project, they do not measure distance as the analogue ones does.

Price: 10 USD
Get it here

Be sure to get the red/black/white wires for it. This is not allways included, and it is a non-standard socket!

This is actually not a favorite of mine, I usually use ultrasonic sensors, such as the SRF05 (find it anywhere via Google - they also sell it at the picaxe-storepicaxe-store where they call it SRF005 and have a picture of the back of an SRF04 in the shop! But it is the right one, and I did tell them but..). Anyway; The SRF05 is much more reliable and precise. It is also faster, but costs a little more, is a little more complicated to write code to, and a little more complex to install - so it is not used here, but if you are fresh, buy one of these instead ;)

If you go for the SRF05, I have made a small walkthrough to connecting the SRF05 here on letsmakerobots.com

Step 5: Buy the materials (Motors and wheels)

Picture of Buy the materials (Motors and wheels)
2 Gear Motors with wheels
The higher the ratio, the stronger robot, the lower, the faster robot. I recommend ratio somewhere between 120:1 to 210:1 for this kind of project.

Price, total: 15 USD
Get some here

Step 6: You will also need, and you could also buy..

You will also need:

  • Double sided adhesive tape (for mounting, the foamy sort is best)
  • Some wire
  • Ordinary adhesive tape (to isolate a cable perhaps)
  • Simple soldering equipment (Any cheap kit will do fine)
  • An ordinary small nipper or scissor to cut things
  • A screwdriver

You could also get, while you're at it:

  • Some LED's if you want your robot to be able to signal to the world or make cool flashing-effects
  • More servos to make your robot move more..erh..arms? Or servos with servos on etc.
  • A tiny speaker if you would like your robot to produce sound-effects and communicate to you
  • Some sort of belt-track system. Robots with belt tracks are way cool as well, and the controller and the rest will be the same. Here is an example to what you could take it to with belt tracks TAMYIA makes cool belt-track-systems, and this one is also a favorite of mine
  • Any kind of line-sensor-kit, to turn your robot into a Sumo, a Line-follower, stop it from driving off tables, and everything else that needs "a look down".

Step 7: Lets make a robot!

Picture of Lets make a robot!
OK! You have ordered the stuff, received your package(s), you want to build :) well.. Let´s get started!

First mount the wheels to your geared motors. And add tires (rubber bands in this case).

Step 8: The double adhesive tape - trick

Picture of The double adhesive tape - trick
An easy way to mount stuff for fast (and amazingly solid and lasting) robots is double adhesive tape.

Step 9: Build the body out of.. nothing, really!

Picture of Build the body out of.. nothing, really!
Insert the batteries, so you have a realistic idea of weight and balance.

When batteries are below the axel of the wheels you can make it balance, but it is no problem if it does not.

Add some double adhesive tape to the button of the server as well, and..

Step 10: Design your Robot

Picture of Design your Robot
how to start a robot_html_287d2309.jpg
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Chose your own design, you can also add extra materials if my “design” is too simple.

Main thing is that we have it all glued together: Batteries, Servo and wheels. And wheels and servo can turn freely, and it can stand on it´s wheels somehow, balancing or not.

Step 11: Disconnect!

Take out the batteries, to avoid burning something unintended!

(trust me, you want to ;)

Step 12: Let's get started with the board.

Picture of Let's get started with the board.
And now for the main-brain.

You should have a project board similar to the one on the picture.

(and so this may be of interest to you in the future)

Notice that it has a chip in it. Take it out. The chip is a Darlington-driver that is quite handy placed there on the board, but we will not need it for this project, and we need it´s space, so away with that chip!

It is easiest to get chips out of their socket by inserting a normal flat screwdriver just below it, move it ind, and tip up the chip carfully.

Step 13: Insert the chips

Picture of Insert the chips
how to start a robot_html_2060dd0.jpg
A fresh, brand new chip usually do not fit into a socket right away. You will have to press it sideways down on a table, to bend all the legs in an angle so it will fit. (Legs go down, into the sockets :).

Make sure all the legs are in the sockets.

If you bought the Servo upgrade from Picaxe, you have a yellow chip. Put it in place of the Darlington.

Note that not all holes in the project board are filled out with the yellow chip. We only need the eight to the right in the picture, as this is just simple resistors, we do not need to feed them extra.

This yellow chip is actually just 8 * 330 Ohm's resistors in a neat package. And so, if you should have a resistor, you can just insert it instead in slot numbered “0” (see picture for this ugly little hack), as this is the only one we will use, when we only use one servo.

Also insert the large chip, the brains, the microcontroller, the Picaxe 28(version number) into the project board.

Important to turn this the right way. Note that there is a little mark in one end, and so on the board. These must go together.

This chip will get power from the board via 2 of it´s legs.

All the remaining 26 legs are connected around on the board, and they will be programmable for you, so you can send current in and out to detect things and control things with the programs you upload into this microcontroller. (cool!)

Step 14: Insert the Motor controller

Picture of Insert the Motor controller
Now insert the L293D motor-controller in the last socket. Be sure to turn this one the right way just as the Microcontroller.

The L293D motor-controller will take 4 of the outputs from the microcontroller, and turn them into 2. Sounds silly? Well.. Any ordinary output from the microcontroller can only be “on” or “off”. So just using these would (example) only make your robot able to drive forward or stop. Not reverse! That may come in unhandy when facing a wall.

The board is made so smart that the 2 (now reversible) outputs get their own space, marked (A) and (B) just next to the motor-controller (Bottom right on the picture). More about this later.

Step 15: The red plastic on the back of the board

Picture of The red plastic on the back of the board
On the backside of the board you may find some strange plastic.

This has no use, it is just a leftover from manufacturing.

They “dip” the board in warm tin, and parts they do not want so get tinned is sealed with this stuff.

Just peal it off when you need the holes they seal.

Step 16: Connect the motors wires to the board

Picture of Connect the motors wires to the board
how to start a robot_html_m47e92c89.jpg
Take 4 pieces of wire, and solder them to the 4 “A & B” - holes.

.. Or if you are that advanced, use some other means of connecting 4 cables to the standard sized holes! (one can buy all sorts of standard sockets and pins that will fit)

If you (like me) just solder onto the board, you can strengthen this part with some tape. or if you have some of that heat-shrinking plastic you can support the wires with this.

Step 17: Connect the wires to the motors

Picture of Connect the wires to the motors
The 2 “A” goes to one motor, and the 2 “B” to the other.

It does not matter which is which, as long as “A” is connected to one motor, and “B” to the two poles of the other.

(yes, my soldering iron is really dirty, I know, haha - as long as it works, you know ;)

Step 18: Hooking up the servo

Picture of Hooking up the servo
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Now let´s hook up the servo.

If you should read the Picaxe documentation, you will read that you should use 2 different power-sources if you add servos. To put it short; We don´t mind here, this is a simple robot, and to my experience this works just fine.

Yo will need to solder an extra pin to output "0", if you want to use the standard servo connection. Such a pin comes with the Picaxe upgrade pack (a whole row, actually), but you only need one for one servo, and they can be bought in any electronics store.

If your servos cable is (Black, Red, White) or (Black, Red, Yellow), the Black should be to the edge of the board. Mine was (Brown, Red, Orange), and so the brown goes to the edge.

The hint is usually the Red; It is what is referred to as V, or any of these, used in random: ("V", "V+", "œ+", "1"). This is where current comes from.

The black (or brown in my case) is G, or ("œG", "œ0" or "-"). This is also known as "œGround", and is where current goes to. (the 2 poles, +/- remember your physics-lessons?

The last color is then "The signal" (White, Yellow or Orange)

A servo needs both "+ & -" or "V & G", and a signal.

Some other devices may only need "Ground" and "Signal" (G & V), and some may both need V, G, Input and output. Can be confusing in the beginning, and everything is always named different (like I just did here), but after a while you will get the logic, and it is actually extremely simple - Even I get it now ;)

Step 19: Hooking up the head

Now let´s hook up “the head”, the Sharp IR-sensor. (or SRF05 if you went for that option)

(If you bought an SRF005 or similar instead, you should look here on how to hook this up, it is different from this!)

There are a million ways to hook up a thing like the Sharp IR-sensor, but here are clues:

Red needs to be connected to V1, that is (in this setup) anything marked “V”, or is connected to this.

Black goes to G, anywhere on the board.

White is to be connected to Analogue input 1.

If you read the documentation that comes with the project-board, you can read how to attach the accompanying ribbon-cable, and use this.

What I have done on the picture, is to cut off a cable from an old burned out servo, soldered in a pin, and connected the whole thing just as a servo. You can use it to see which colors of the Sharp goes to which row on the board.. or one way to do this.

Weather you use the ribbons or “my method” of connecting the Sharp IR, you should also connect the 3 remaining analogue input to V. (look at the little pins connected on the picture, next to the plug)

I had some jumpers laying, and you can see that all 3 connections left are short cut. (The last pair, not touched, are just two “Ground”, no need to short cut these). If you use the ribbon, you can just connect the inputs to V (or ground for that matter) by connecting the wires in pairs.

The reason it is important to shortcut the unused analogue inputs here is that the are “left floating”. This means that you will get all sorts of weird readings where you try to read if these are not connected. (to put it short, this is a semi-fast paced walkthrough, we must get to the end ;)

Step 20: Let there be life

Picture of Let there be life
Now for some fun!

Some how you should get the Red wire from your batteries (+) hooked up to the red wire on the project board (V). And the black (-) to (G).

How you do this depends on the equipment you bought.

If there is a battery-clip on both batteries and board you should still make sure that the "+" from the batteries ends up to the "V" on the board. (Learn more here)

Sometimes (though not often) the clips can be reversed to each other, and just putting two matching clips together is no guarantee that + gets to V and - gets to G! Make sure, or you will se melting things and smoke! Do not feed the board with more than 6V (no 9V batteries, even though the clip fits)

As a note; We are only working with one power-supply here. Later you will want to use same Ground, but both V1 and V2. That way your chips can get one source, and the motors etc another (stronger) voltage.

Install the Picaxe Programming Editor on a PC, follow the manuals to get your Jack / USB / Serial hooked up, Insert the batteries in your (still headless) robot, insert the jack stick in your robot.. enter the programming editor, and write

servo 0, 150

Press F5, wait for the program to transfer, and your servo gives a little yank (or spins, depending on which way it was).

If something goes wrong here, contact mecontact me, or mess with the manuals and ports etc, until no errors are reported, and all seems to work,

To test, try to write

servo 0, 200

and press F5

The servos disc should spin a little and stop. To get back, write:

servo 0, 150

and press F5

Now your robot's “neck” is facing forward.

Stick on the “head” - the Sharp IR

Step 21: Heads up & go!

Picture of Heads up & go!
You're done building the basics!

You have actually made a robot. Now the fun starts, you can program it to do anything, and attach anything to it, expand in any way. I am sure you are already full of ideas, and you are likely not to have followed me all this way ;)

The design may wary, you may have used other parts etc.. But if you have connected as described, here are some tips to get started programming your robot:

Enter (copy-paste) this code into your editor, and press F5 while the robot is connected:

Note: The code will look a lot nicer once you get it into your editor, it will recognize commands and give them colors.

+++

main:

readadc 1, b1 ' takes the voltage returned to analogue pin 1, and puts it into variable b1
debug ' this draws out all variables to the editor.
goto main

+++
Now take your hand in front of the robot's head and notice how the variable b1 changes value. You can use the knowledge gained to decide what should happen when (how close things should get before..)

Now I advise you to put your robot up on a matchbox or similar, as the wheels will start turning.

Enter (copy-paste) this code into your editor, and press F5 while the robot is connected:

+++

high 4

low 5

+++

One of the wheels should turn in one direction. Does your wheels turn forward? If so, this is the instruction for that wheel to turn forward.

If the wheel is turning backwards, you can try this:

+++

low 4

high 5

+++

To turn the other wheel, you need to enter

high 6

low 7

(or the other way around for opposite direction.)

The servo you have already tried.

All the way to one side is:

servo 0, 75

the other side is:

servo 1, 225

- and center:

servo 1, 150

Here is a small program that will (should, if all is well, and you insert the right parameters for high/low to suit your wiring to the motors) make the robot drive around, stop in front of things, look to each side to decide which is the best, turn that way, and drive towards new adventures.

+++

Symbol dangerlevel = 70 ' how far away should thing be, before we react?
Symbol turn = 300 ' this sets how much should be turned
Symbol servo_turn = 700 ' This sets for how long time we should wait for the servo to turn (depending on it's speed) before we measure distance

main: ' the main loop
readadc 1, b1 ' read how much distance ahead
if b1 < dangerlevel then
gosub nodanger ' if nothing ahead, drive forward
else
gosub whichway ' if obstacle ahead then decide which way is better
end if
goto main ' this ends the loop, the rest are only sub-routines

nodanger:' this should be your combination to make the robot drive forward, these you most likely need to adjust to fit the way you have wired your robots motors
high 5 : high 6 : low 4 : low 7
return

whichway:
gosub totalhalt ' first stop!

'Look one way:
gosub lturn ' look to one side
pause servo_turn ' wait for the servo to be finished turning
gosub totalhalt
readadc 1, b1

'Look the other way:
gosub rturn ' look to another side
pause servo_turn ' wait for the servo to be finished turning
gosub totalhalt
readadc 1, b2

' Decide which is the better way:
if b1<b2 then
gosub body_lturn
else
gosub body_rturn
end if
return

body_lturn:
high 6 : low 5 : low 7 : high 4 ' this should be your combination that turns the robot one way
pause turn : gosub totalhalt
return

body_rturn:
high 5 : low 6 : low 4 : high 7 ' this should be your combination that turns the robot the other way
pause turn : gosub totalhalt
return

rturn:
servo 0, 100 ' look to one side
return

lturn:
servo 0, 200 ' look to the other side
return

totalhalt:
low 4 : low 5 : low 6 : low 7 ' low on all 4 halts the robot!
Servo 0,150 ' face forward
wait 1 ' freeze all for one second
return
+++

With some clever programming and tweaking, you can make the robot drive, turn it´s head, make decisions, make small adjustments, turn towards “interesting holes” such as doorways, all working at the same time, while driving. It looks pretty cool if you make the robot spin while the head is turning ;)

Up for some more advanced code? Check this: http://letsmakerobots.com/node/25

Sound:

You can also add a small speaker to example (output) pin 1 & ground, and write

Sound 1, (100, 5)

- or within the example program above make it

Sound 1, (b1,5)

- to get funny sounds depending on the distance to objects ahead.

You could also attach a lamp or LED to pin 2 & ground, and write (remember LED's need to turn the right way around)

High 2

to turn on the lamp, and

Low 2

to turn it off ;)

- How about a Laser-pen, mounted on an extra servo? Then you could make the robot turn the laser around, and turn it on and off, pointing out places..

  • Add a marker on it (perhaps on a second servo, so it can take it on and off the paper?), and teach it to write the number of times you wave your hand in front of it on a piece of paper.
  • Turn it into a "cat-get-down-from-the-chair"-guardian-robot, shaking when the cat comes near.
  • Make it chase another robot (or cat?) You will get into some good chase-routines this way!
  • Make it seek out the middle of a room
  • Make it act like a mouse; Freeze if there is movement in sight, and always move close to walls and seek out small gaps to get into.

You could also take an old toy-car apart, take out the electronics in it, save the motors and turning-device in it, and hook up your board, servo and sensor - you will have given life to your vehicle :)

Also try to read some of the documentation, it will make sense now that you got a head start, You can do anything now!

Welcome to a very funny world of homemade robots, there are thousands of sensors and actuators just waiting for you to hook them up and make robots out of them :)

Now take some pictures of your robot, and send them to me at letsmakerobots.com - C ya ;)
 
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robobot31121 month ago

will the arduino code differ largely from this one?

Pittfall33 years ago
instead of the sharp ir sensor does anyone think you could use a ultrasonic sensor? would the coding be different? im sorry im a newbie at robots X)
Maybe a little late to answer but, yes you can use a ultrasonic sensor although you need to change to code a bit as you most likely need to first send out a ping and then read the time it takes for it to return. have not read the code closely but it seems like the code doesn't send out a ping
Kr0n3 years ago
Can this be created with a Bot Board 2?
ub3rFrank6 years ago
Does anyone know where I can get some of those pins? Is there another name for them besides just 'pins' ? Thanks
I've usually heard (in the US), those pins called "100 mil pitch headers" or "breakaway headers". The "100 mil pitch" part means that the pins are spaced 0.100" (2.54mm) apart (this is critical, trying to make the wrong sized header work is a huge pain). They're also called "breakaway headers" because you can easily cut the strip apart to get just the number of pins you need in a row. Digikey is once source, here's an example part number (they've got more, from different manufacturers and at different lengths): S1032E-16-ND

If you can find them at a local electronics store they're probably cheaper, but double check the pitch! (Can you tell I recently got burned on that one?)
acidblue6 years ago
What kind of 330 Ohm resistor should i get? 1w, 1/2w or 1/4w? or does it matter? Going with a standard servo and the 330 Ohm resistor since it's cheaper. Sorry if this is a stupid question, just want to make sure I get the right one.
fritsl (author)  acidblue6 years ago
Any of the 330 Ohm resistor will do. It does not to be very accurate, and that is the differences; How accurate they are :)
Whoops, the difference between 1W, 1/2W & 1/4W is *not* accuracy, it's how much power they can take. If you're attaching the resistor to a pin of your microcontroller it probably doesn't matter, because the microcontroller can't source enough power to burn up a resistor, but other times it might matter a lot! This website has a nice discussion of power dissipation in resistors, including an experiment! http://www.allaboutcircuits.com/vol_6/chpt_2/7.html
SimonRawr3 years ago
Will the software work on a Mac?
I made this robot and love it. It's a great start into robotics and programing. Thank you for the instructable :-)
shadofox214 years ago
My servo doesn't seem to work correctly. When I put in the batteries, it twitches a little, but it won't take any commands from the program editing software.

The software is working because the motors can be programmed.

So far I've tried 2 different servo plug locations.

Any idea what might be wrong?

Thanks
I have the EXACT SAME PROBLEM!
and my motors work great too.

FRITSL, HELP US!!!
thx in advance.
anthonyjr25 years ago
I Really do not understand this Step at all. i dont have an old servo or anything so i cant really do your method. and the way it says in the manual doesnt make sense either. could you please in some way, explain how to do it with the ribbon cable?
Why havent you responded to my above question yet?
fritsl (author)  anthonyjr25 years ago
Did you not also ask this on LMR? I think you got an answer there, no? Anyway, the deal is that I show you what part of the board is to be connected to what wire on the sensor. I am not sure I understand the part about using "the ribbon cable"; The only ribbons I know that comes along as standard, are only 2 pins wide.. and this analogue sensor needs 3. So how can you use the ribbon? That is excactly why I just show you what connections on the board goes to what wires on the sensor. It is not LEGO, if the stuff does not fit together, you will have to make it fit. The right connections must be made, and I suggest one way, there are millions.. some use bubble gum, you know ;)
hi... Im ralph Notarte 16 yrs. old.. from philippines.... and I have a question.. how to program the robot????...... and can you say it all???? thanks... REPLY [flag][delete]
so your saying have to make a way to do it? ok. (also, i did ask this on LMR, but i got the wrong answer i wanted
hi... Im ralph Notarte 16 yrs. old.. from philippines.... and I have a question.. how to program the robot????...... and can you say it all???? thanks...
how hack a electronic mosquito trap
I have a electronic mosquito trap , how can make cool things out of it.
G-James4 years ago
Are there any alternatives for double sided tape, its pretty hard to come by round where I am.
A-Nony-Mus4 years ago
nice 'ible, i built one and it is fun to play with.
i do have two questions tho,
1.) How does noise interference work? i mean, i know the noise can be annoying, but how does that mess with the circuitry?
2.) is it possible to add a photocell, and if so, where?
I learned so much in the past year.  Thanks to you frits.      
arhodes184 years ago
 does anybody know if this one will work? world-educational-services.info/cart/index.php
cambigfoot4 years ago
will an arduino work?
 where i can buy these motors in the eu
Jinnarin5 years ago
If you are in the US and looking for the yellow chip, I believe this isthe right one: www.alliedelec.com/search/productdetail.aspx
area365 years ago
how would you program it to talk?
area365 years ago
Does anyone know where to find those pins?
Willmeister5 years ago
and on the back
Willmeister5 years ago
can i put like a little wheel on the front so its steady
Please give any suggestion to the "Instructables the Movie" at http://www.instructables.com/community/Instructables-the-movie/
joeyoung1235 years ago
btw some of the links dont work, if it doesnt work and it shows an ip in the address bar, replace it with 81.134.141.187.
D.L.H.5 years ago
Awesome ible I just got a small question(I might try this later on maybe) Where did you get the small tank treads because I think that is a better design for what terrain I have in my area.
fritsl (author)  D.L.H.5 years ago
Some links to treads, and hints for first timers here:<br/><a rel="nofollow" href="http://letsmakerobots.com/node/387">http://letsmakerobots.com/node/387</a><br/>
D.L.H. fritsl5 years ago
Thanks!
i did not short cut the pins do you thinks that is why my robot jerks forward and spins around. any way nice instrutable.
can you do something similar with an Arduino
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