Industrial Robot Electrical Design: Difference between revisions

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(Added resources on shaft encoders)
 
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=Toolpaths=
#REDIRECT [[Industrial Robot/Research Development]]
 
Electrical Schematic Designer (gschem) > export ( __ filetype)> PCB Layout Creator (PCB) > export (gerber filetype)> G-code generator from gerber files (PCB2gcode) > export (gcode filetype) > Machine Controller (EMC2) > export (logic signals) > Machine ( __ ) > export (work)
 
[[Category: Industrial Robot]]
 
=Micro-controller=
 
Possibility is an Arduino microcontroller [http://www.arduino.cc/ Arduino Website]
 
=Solenoid Driver=
 
Possibility is the PWM Solenoid Driver from RepRap wiki [http://reprap.org/wiki/PWM_Driver_1_1?sortcol=0&table=1&up=1 PWM Driver 1.1]
 
=Stepper Motor Driver=
 
The stepper motor driver to be used is from [[Stepper Motor Controller]]
 
=Shaft Encoder=
 
[http://mechatronics.mech.northwestern.edu/design_ref/sensors/encoders.html Mechatronics on Digital Encoders]
 
[http://en.wikipedia.org/wiki/Rotary_encoder Wikipedia on Rotary Encoders]
 
An absolute encoder can identify different positions of the measured shaft, but is more complex than an incremental encoder. However, an incremental encoder only provides relative position information. An incremental encoder can be used as an "absolute" one by saving the relative movement information; for instance, for day 1, joint A moves 5 degrees clockwise from the home position, then day 2, joint A moves 10 more degrees clockwise; by saving the information from day 1, the microcontroller can understand that joint A has moved a total of 15 degrees clockwise from the home position, not just 10 degrees.

Latest revision as of 11:40, 28 January 2012

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