Regbot: Difference between revisions

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Sorry, but this page is far from complete, and not very well structured.
Sorry, but this page is far from complete, and not very well structured.
==Version==
Robot software (regbot.hex): 43
Client software for windows (regbot.exe): 43
Both includes software for exercise 3+4 in the controlcourse, but the rest is missing
New versions will be available as needed, will be available on the campusnet.
The needed drivers are available on databar computers (they require administrator rights to install), but can be installed on other windows computers
see below.


==User interface==
==User interface==

Revision as of 16:53, 13 February 2015

Small robot intended for control-1 exercises.

Sorry, but this page is far from complete, and not very well structured.

Version

Robot software (regbot.hex): 43 Client software for windows (regbot.exe): 43

Both includes software for exercise 3+4 in the controlcourse, but the rest is missing

New versions will be available as needed, will be available on the campusnet.

The needed drivers are available on databar computers (they require administrator rights to install), but can be installed on other windows computers see below.

User interface

The user interface can configure and run the robot, as wel as inspecting almost all values on the robot. Written in python using Qt GUI library.

Install client in Windows

Get the regbot.exe from the course homepage, place it in a directory, this directory will be default for configuration file and result files from the robot.

A driver must be installed to get in contact with the robot - see installation in windows

The driver willcreate a com-port when connected - most likely com3. When the robot is disconnected by unplugging the cable, then the client needs to be restarted if it was connected when the cablewas unplugged.

for more advanced installation see installation in windows

Development pages

News

Regbot schematic places right motor encoder yellow wire to teensy pin 22 (white on pin 21) and left motor yellow to pin 20, white to pin 19.

On 2nd prototye pin21,22 is switched, as is pin 19,20. This gives a sign error on velocity and position - which is bad for the designed controllers.

On 1st prototy it is (now) as schematic, so this should be right

Design issues

This part is for design issus, and not needed for normal user.

The robot consist of a 72MHz 32bit ARM processor on a teensy 3.1 board, controlling a pololu motor controller and 2 small pololu motors with magnetic encoder. A further sensor is sparkfun LSM9050 IMU. Supplied by 12V 3A from 220V on a thin wire. The processor, IMU and wheel-encoders can be supplied from USB.

repository for software - client and robot