I'm getting into microcontroller programming with an introductory robot that I'll be building with a team that has about 10 motors. It will also need to send and receive signals from and to a computer (2.4Ghz tranceiver) to get commands and send information.

I'm proficient at programming with higher level languages like Python and PHP, and I'm currently learning C++. I'm already familiar with the C type syntax so it's just a matter of familiarizing with the language. So learning wouldn't be an issue. Also we're going to be using C on the microcontroller, the programming language on the computer will be a mixture of C and Python.

I'm looking for a board that will control about 10 motors as well as controlling a wireless transceiver. Furthermore, I'm looking for a wireless transceiver for the computer (No wifi networks allowed), as well as an O/S and development environment for this type of thing. My problem is that I don't know where to start. I don't even know the appropriate search terms on Google, hence having a lot of difficulties getting relevant information.

We do have a learner's 8051 board, but we're lacking a computer with a serial port so we can't do much with it yet.

Also I lack the knowledge on how to actually compile my code for the microcontroller and put it on the chip itself. So if there anyone has some resources for that, it would be very helpful.

To summarize:

  1. What's a good board that can control about 10 motors?

  2. What's a good transceiver module that can be embedded on the said board and programmable?

  3. What's a good transceiver module that can be attached, preferably into an USB port (meaning the drivers have to be included as we can't develop drivers), to the computer that's easily programmable?
  4. Any relevant search terms that I could get more info from?

Any suggestions would be much appreciated Thanks

closed as not a real question by Oliver Charlesworth, Bala R, Michael Petrotta, BlueRaja - Danny Pflughoeft, Will Tate May 1 '11 at 1:26

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center. If this question can be reworded to fit the rules in the help center, please edit the question.

  • There's no actual question here. And even if there were (i.e. choice of microcontroller), it would probably be off-topic for Stack Overflow. – Oliver Charlesworth May 1 '11 at 0:57
  • 1
    This question is probably best suited to the electronics site. – entropo May 1 '11 at 1:05
  • Ask on the electronics site, where they'll most likely tell you "Arduino" – BlueRaja - Danny Pflughoeft May 1 '11 at 1:14
  • my suggestion is try a beagleboard (www.beagleboard.org). I dont know whats wrong to close this question? As suggested by @entropo this could have been at least moved to electronics stackexchange. – yasouser May 1 '11 at 1:32
  • @yasouser: Unfortunately, we only get the option to move it to a few different sites, and that is not one of them. – BlueRaja - Danny Pflughoeft May 1 '11 at 1:38

Several things in the post and in the comments that have been posted tell me that it actually belongs here, and not on electronics. And it is a real question, so I'm going to answer it.

At the present time, the most likely answer is "get an arm board with enough resources to run an operating system" - something like a beagleboard running linux for example.

  • you have a team of people, so you'll probably want some modularity to code, that's not good for trying to shoehorn a lot into a tiny controller

  • you want to program in C, again, you will quickly run up against the limitations of a tiny controller

  • you have 10 motors to "think" about

  • Your project is likely going to have a lot more software complexity than is the norm for discussions over on electronics.

  • While the base board will cost 2-3x what a small controller will, once you have USB host you can take advantage of cheap PC peripherals that are typically cheaper than their SPI or bare-bones embedded equivalents for storage, networking (I know you said no, but its great for debugging, you can disconnect it in application), perhaps a cheap bluetooth dongle as an alternative to a more traditional wireless solution like zigbee, etc. Putting an outboard USB coprocessor on an arduino is silly, slow, and kills any cost advantage.

  • Being able to "log in" to your embedded system is a huge advantage. Even if you go with a smaller controller, try to have a command/monitoring channel with human readable commands, where you can use a terminal to do things like say motor1,-10 or ask question like vbatt?

Now, there are some downsides to advanced processors like the OMAP Arm device on Beagleboard, and dealing with those might warrant a supplemental question over there. A key one will be that the I/O voltage will be lower than most are used to playing with - something like 1.8 v instead of 3.3 or 5v. So you'll need a level translator or carefully designed driver circuits. Or perhaps that is where the arduino folks are so eager to blindly recommend does have a role - NOT as the brains, but as a subservient I/O controller taking serial commands from the main cpu.

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