Difference between revisions of "CPR Wiki"

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<div style="color:#50798a; font-size:162%; border:none; margin:0; padding:.1em;">Welcome to the Commonplace Robotics Wiki</div>
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<div style="font-size:162%; border:none; margin:0; padding:.1em; font-weight: bold">Welcome to the Robotics Wiki</div>
<div id="articlecount" style="font-size:85%;"> Right now there are [[Special:Statistics|{{NUMBEROFPAGES}}]] pages in this wiki.</div>
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<div style="color: grey; font-size:162%; border:none; margin:0; padding:.1em;">Tools, tips, and troubleshooting</div>
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Commonplace Robotics and igus GmbH are working closely together to develop an intuitive robot control software.
 
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* [[:Category:CPRog|CPRog Software]]
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* [[:Category:CPRog|CPRog/iRC Software]]
 
* [[:Category:ModuleCtrl|ModuleCtrl]]
 
* [[:Category:ModuleCtrl|ModuleCtrl]]
 
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* [http://www.github.com/CPR-Robots git repositories]
 
* [http://www.github.com/CPR-Robots git repositories]
 
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* '''[[Special:AllPages|Index]]'''
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* '''[[Special:AllPages|All pages]]'''
 
* '''[[:Category:Downloads|Downloads]]'''
 
* '''[[:Category:Downloads|Downloads]]'''
 
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Tools, tips and troubleshooting for the Commonplace Robotics Mover4 and Mover6 robot arms and modular control electronics used with igus robolink robot arms.
 
  
 
= igus ReBeL =
 
= igus ReBeL =
 
* [[igus ReBeL]] software, documentation and troubleshooting
 
* [[igus ReBeL]] software, documentation and troubleshooting
 +
 +
= iRC - igus Robot Control Software =
 +
* [[Software_Updates|Software Downloads]]
 +
* [[Documentation|Documentation and User Guides]]
 +
* [[:Category:Robot Programming|Programming Examples and additional information]]
 +
* [[:Category:Configuration|Configuration]]
 +
* [[Configuration Files Overview]]
  
 
= igus robots and gantries =
 
= igus robots and gantries =
* igusRobotControl-Release13 [[IgusRobotControl-Release13-DE | Deutsch]] / [[IgusRobotControl-Release13-EN | English]]: The new version of the iRC!
 
* igusRobotControl-Release12 [[IgusRobotControl-Release12-DE | Deutsch]] / [[IgusRobotControl-Release12-EN | English]]: Software updates and documentation of the iRC - igus Robot Control software
 
 
* [[Referencing robolink]]: Referencing the robolink arm
 
* [[Referencing robolink]]: Referencing the robolink arm
 
* Write your first [[CPRog Examples|first motion program in CPRog/iRC]]. - Also have a look at the [[#Programming_environment_CPRog/iRC|CPRog/iRC section below]].
 
* Write your first [[CPRog Examples|first motion program in CPRog/iRC]]. - Also have a look at the [[#Programming_environment_CPRog/iRC|CPRog/iRC section below]].
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* [[DCi quickstart guide]]: Quick start guide for DCi robolink robots.  
 
* [[DCi quickstart guide]]: Quick start guide for DCi robolink robots.  
 
* [[DCi upgrade guide]]: How to upgrade the TinyCtrl software running on the embedded control electronics of the DCi robot
 
* [[DCi upgrade guide]]: How to upgrade the TinyCtrl software running on the embedded control electronics of the DCi robot
* [[Rebel Joint]]: Documentation for the set up of single Rebel joints
 
  
 
= AMR - Autonomous Mobile Robots =
 
= AMR - Autonomous Mobile Robots =
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* [[AMR Documentation]]: Documentation and software updates for the CPR Mobile Platforms  
 
* [[AMR Documentation]]: Documentation and software updates for the CPR Mobile Platforms  
  
 +
= iRC Electronics for Stepper Motors =
 +
* [[External_Axis|Adding additional axes]]
 +
* Configuration and test software [[Config_Software_ModuleCtrl|ModuleCtrl Open Loop]]
 +
* Configuration: [[Firmware_Parameter_Configuration|firmware parameters V1]]
 +
* [[Set_up,_testing_of_single_joints|Set up and testing of single joints]]
  
= Programming environment CPRog/iRC =
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= iRC Electronics for BLDC Motors =
 
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* Configuration and test software [[Config_Software_ModuleCtrl|ModuleCtrl Closed Loop]]
* [[Software Updates]] Download the up-to-date version of the programming environment and current user guides / manuals
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* Configuration: [[Firmware_Parameter_Configuration|firmware parameters V2]]
* [[Documentation]] Find Documentation in EN and DE
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* [[Rebel_Joint|ReBeL Joint]]: Documentation for the set up of single Rebel joints
* [[Changing Robot Parameters]]: Many robot parameters like joint max velocities or software end switches can be adapted to your needs.
 
* 2D Camera Integration: The [[Konfiguration]] pages shows how to integrate e.g. a smart camera
 
* [[CPRog Examples]]: Example programs in CPRog/iRC
 
* [[Gearplay Compensation]]: Use CPRog/iRC to compensate backlash in joint 1
 
* [[Logic Program]]: Run a second program in parallel to a [[CPRog Examples|custom CPRog/iRC program]] to define logic functions
 
* [[Bounding Box / Virtual Box]]: How to use the bounding box in CPRog to avoid collisions by limiting the movement of the robot.
 
* [[Acceleration and Motion Smoothing]]: What does the smooth parameter in the CPRog/iRC Program Editor do? Smooth changes of direction!
 
* [[Consistency Check]] between CPRog/iRC, the program and the connected robot: What does it do and how to handle it
 
* [[Global Variables in CPRog|Global Variables]]
 
 
 
= Embedded Control Software TinyCtrl =
 
 
 
* [[Connect DCi Robot/TinyCtrl to a Laptop via LAN]]: Instructions on establishing a connection between a windows PC and the embedded Control of e.g. a DCi Robot.
 
* [[Software Updates]]: Download the most recent version of the embedded robot control software and current user guides / manuals
 
* [[Configure for a different robot]]: How to configure a robot control for a different kinematic
 
* [[FTP and putty Access]]: How to change parameter or files using FileZilla and putty
 
* [[Change the TinyCtrl Project]]: Change the TinyCtrl project file e.g. to switch to another robot or to add a linear axis
 
* [[Restore SD Card of Embedded Computer]]: Restore the SD card of the embedded computer using a factory image.
 
* [[TinyCtrl_Initial_Setup_of_Linux_Board]]: Instructions on how to install and set up TinyCtrl on a virgin Phytec Linux Board.
 
* [[Add External Axis]]: How to add an additional joint to the robot. Also helpful if the configuration of a joint does not work.
 
  
 
= How to interface with the robots =
 
= How to interface with the robots =
  
* [[Camera]]: How to integrate a camera system; different options are shown
+
* [[Control Interfaces]]: Summary of all PC/PLC control interfaces
* [[Modbus_Server]]: Using the Modbus TCP interface to communicate with a PLC, e.g. Siemens S7
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** [[Camera]]: How to integrate a camera system; different options are shown
* [[PLC Interface]]: Using digital Inputs / Outputs the robot can be controlled (enable, start, stop, ..) by a master PLC
+
** [[Modbus_Server]]: Using the Modbus TCP interface to communicate with a PLC, e.g. Siemens S7
* [[CRI Ethernet Interface]]: Connect via network connection. Find documentation and example code here
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** [[PLC Interface]]: Using digital Inputs / Outputs the robot can be controlled (enable, start, stop, ..) by a master PLC
 +
** [[CRI Ethernet Interface]]: Connect via network connection. Find documentation and example code here
 +
* [https://github.com/CommonplaceRobotics/CRI-Python-Lib/ CRI-Python-Lib]: a python libary that allows the fast and simple access to the robot control via ethernet using the CRI interface
 
* [[CAN Protocol]]: Write your own robot control software that directly sends commands to the CAN bus. Documentation and example code
 
* [[CAN Protocol]]: Write your own robot control software that directly sends commands to the CAN bus. Documentation and example code
 
* [[ROS packages]]: Integrate the robots into your ROS environment. Documentation and packages for hardware communication, teleop and moveIt
 
* [[ROS packages]]: Integrate the robots into your ROS environment. Documentation and packages for hardware communication, teleop and moveIt
* [[2D Camera Integration|Camera Interface]]: Receive coordinates and object information from an object recognition camera.
+
* [[DH Parameter]]: Some information on Denavit-Hartenberg parameterI
  
 
= Firmware configuration and diagnostics =
 
= Firmware configuration and diagnostics =
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* [[Fix a display with graphics errors]]
 
* [[Fix a display with graphics errors]]
 
* [[Support Routes]]
 
* [[Support Routes]]
 +
 +
= Legacy Mover and CPRog =
 +
* [[Software Updates]] Download the up-to-date version of the programming environment and current user guides / manuals
 +
* [[Documentation]] in EN and DE
 +
* [[Changing Robot Parameters]]: Many robot parameters like joint max velocities or software end switches can be adapted to your needs.
 +
* 2D Camera Integration: The [[Konfiguration]] pages shows how to integrate e.g. a smart camera
 +
* [[CPRog Examples]]: Example programs in CPRog/iRC
 +
* [[Gearplay Compensation]]: Use CPRog/iRC to compensate backlash in joint 1
 +
* [[Logic Program]]: Run a second program in parallel to a [[CPRog Examples|custom CPRog/iRC program]] to define logic functions
 +
* [[Bounding Box / Virtual Box]]: How to use the bounding box in CPRog to avoid collisions by limiting the movement of the robot.
 +
* [[Acceleration and Motion Smoothing]]: What does the smooth parameter in the CPRog/iRC Program Editor do? Smooth changes of direction!
 +
* [[Consistency Check]] between CPRog/iRC, the program and the connected robot: What does it do and how to handle it
 +
 +
= Legacy Embedded Control Software TinyCtrl =
 +
* [[Connect DCi Robot/TinyCtrl to a Laptop via LAN]]: Instructions on establishing a connection between a windows PC and the embedded Control of e.g. a DCi Robot.
 +
* [[Software Updates]]: Download the most recent version of the embedded robot control software and current user guides / manuals
 +
* [[Configure for a different robot]]: How to configure a robot control for a different kinematic
 +
* [[FTP and putty Access]]: How to change parameter or files using FileZilla and putty
 +
* [[Change the TinyCtrl Project]]: Change the TinyCtrl project file e.g. to switch to another robot or to add a linear axis
 +
* [[Restore SD Card of Embedded Computer]]: Restore the SD card of the embedded computer using a factory image.
 +
* [[TinyCtrl_Initial_Setup_of_Linux_Board]]: Instructions on how to install and set up TinyCtrl on a virgin Phytec Linux Board.
 +
* [[Add External Axis]]: How to add an additional joint to the robot. Also helpful if the configuration of a joint does not work.
  
 
We are constantly extending and updating this Wiki, please [[Support Routes|get in touch]] for further information!
 
We are constantly extending and updating this Wiki, please [[Support Routes|get in touch]] for further information!

Latest revision as of 11:14, 29 August 2024


Welcome to the Robotics Wiki
Tools, tips, and troubleshooting

Commonplace Robotics and igus GmbH are working closely together to develop an intuitive robot control software.

igus ReBeL

  • igus ReBeL software, documentation and troubleshooting

iRC - igus Robot Control Software

igus robots and gantries

AMR - Autonomous Mobile Robots

iRC Electronics for Stepper Motors

iRC Electronics for BLDC Motors

How to interface with the robots

  • Control Interfaces: Summary of all PC/PLC control interfaces
    • Camera: How to integrate a camera system; different options are shown
    • Modbus_Server: Using the Modbus TCP interface to communicate with a PLC, e.g. Siemens S7
    • PLC Interface: Using digital Inputs / Outputs the robot can be controlled (enable, start, stop, ..) by a master PLC
    • CRI Ethernet Interface: Connect via network connection. Find documentation and example code here
  • CRI-Python-Lib: a python libary that allows the fast and simple access to the robot control via ethernet using the CRI interface
  • CAN Protocol: Write your own robot control software that directly sends commands to the CAN bus. Documentation and example code
  • ROS packages: Integrate the robots into your ROS environment. Documentation and packages for hardware communication, teleop and moveIt
  • DH Parameter: Some information on Denavit-Hartenberg parameterI

Firmware configuration and diagnostics

Troubleshooting and Support

Legacy Mover and CPRog

Legacy Embedded Control Software TinyCtrl

We are constantly extending and updating this Wiki, please get in touch for further information!