https://wiki.cpr-robots.com/index.php?action=history&feed=atom&title=Robolink_IdentificationRobolink Identification - Revision history2026-05-11T23:07:39ZRevision history for this page on the wikiMediaWiki 1.44.0https://wiki.cpr-robots.com/index.php?title=Robolink_Identification&diff=334&oldid=prevOLT: Created page with "This is a legacy article on how to find the correct project configuration for older igus robolink arms. =Filename nomenclature= ==For robots with external control electronics== {| class="wikitable" !Parameter !Robot sub-directory !Project File !Description !Image |- ! Igus robolink DQ or D arm or Gantry? |IGUS_DQ_arm / IGUS_arm||Robolink_DQ / Robolink / drylin_XYZGantry|| There are several types or robolink robot arms, the most common is the D arm, named just “IGUS a..."2025-08-11T14:21:50Z<p>Created page with "This is a legacy article on how to find the correct project configuration for older igus robolink arms. =Filename nomenclature= ==For robots with external control electronics== {| class="wikitable" !Parameter !Robot sub-directory !Project File !Description !Image |- ! Igus robolink DQ or D arm or Gantry? |IGUS_DQ_arm / IGUS_arm||Robolink_DQ / Robolink / drylin_XYZGantry|| There are several types or robolink robot arms, the most common is the D arm, named just “IGUS a..."</p>
<p><b>New page</b></p><div>This is a legacy article on how to find the correct project configuration for older igus robolink arms.<br />
<br />
=Filename nomenclature=<br />
==For robots with external control electronics==<br />
{| class="wikitable"<br />
!Parameter<br />
!Robot sub-directory<br />
!Project File<br />
!Description<br />
!Image<br />
|-<br />
! Igus robolink DQ or D arm or Gantry? <br />
|IGUS_DQ_arm / IGUS_arm||Robolink_DQ / Robolink / drylin_XYZGantry|| There are several types or robolink robot arms, the most common is the D arm, named just “IGUS arm” or "Robolink Arm". If you have a XYZ gantry robot, choose the drylin_XYZGantry.prj || [[file:igus_d_dq.png|300px|frameless]]<br />
|-<br />
! 4 or 5 Degrees of freedom?<br />
|4DOF / 5DOF||4Axis / 5Axis|| DOF is the acronym for “degrees of freedom”, meaning the number of robot joints or axes. The robot on the right is 5 DOF or 5 axes. Note: the white gripper is not counted.|| [[file:robolink_DOF.png|300px|frameless]]<br />
|-<br />
!Small version or big version?<br />
|SV/BV||Small/Big||BV stands for Big Version with 2.5 kg payload. SV stands for Small Version with 0.5 kg payload. Measure the inner diameter of joint 2.<br />
* 5cm = BV/Big <br />
* 3cm = SV/Small <br />
|| [[file:robolink_BVSV.png|300px|frameless]]<br />
|-<br />
! Encoder at Gear-output or motor-encoder?<br />
|AE / _BLANK_||AE / _BLANK_||Filenames ''without AE extension'' are for robots that use motor encoders, ''AE versions'' use a encoder on the gear output. Count the number of sockets of any of the modules labelled "Stepper Motor Driver Module" on the DIN Rail. <br />
*3 sockets: use file names containing AE. <br />
*4 sockets: use file names not containing AE<br />
||[[file:DINrail_AEME.png|300px|frameless]] <br />
|}<br />
<br />
Example: If I have a robolink D big version robot with 5 degrees of freedom and motor encoders, <br />
*my project file is <code>robolink_5Axis_big.prj</code><br />
*my robot file is <code>IGUS_ARM_5DOF_BV.xml</code><br />
<br />
==For Robots with internal control electronics, such as the robolink DCi==<br />
This is for robots with control electronics that are integrated into the base of the robot. You won't have external modules on a DIN rail and a whole bunch of cables coming out of the robot base.<br />
{| class="wikitable"<br />
!Parameter<br />
!Robot sub-directory<br />
!Project File<br />
!Description<br />
!Image<br />
|-<br />
! 4 or 5 Degrees of freedom?<br />
|4DOF / 5DOF||4Axis / 5Axis|| DOF is the acronym for “degrees of freedom”, meaning the number of robot joints or axes. The robot on the right is 5 DOF or 5 axes. Note: the white gripper is not counted.|| [[file:robolink_DOF.png|300px|frameless]]<br />
|-<br />
!Small version or big version?<br />
|SV/BV||Small/Big||BV stands for Big Version with 2.5 kg payload. SV stands for Small Version with 0.5 kg payload. Measure the inner diameter of joint 2.<br />
* 5cm = BV/Big <br />
* 3cm = SV/Small <br />
|| [[file:robolink_BVSV.png|300px|frameless]]<br />
|-<br />
! Encoder at Gear-output or motor-encoder?<br />
|AE / _BLANK_||AE / _BLANK_||Filenames ''without AE extension'' are for robots that use motor encoders, ''AE versions'' use a encoder on the gear output. Count the number of sockets at any of the motors of the robot. <br />
*1 socket: use file names containing AE. <br />
*2 sockets: use file names not containing AE<br />
||[[file:DCi_motor_encoder.jpg|thumb|165px|DCi with motor encoder. Correct project file does not contain AE: e.g. robolink_5Axis_Small.prj]]<br />
[[file:DCi-output_encoder.jpg|thumb|165px|DCi with output encoder. Correct Project file contains AE: e.g. robolink_5Axis_Small_AE.prj]]<br />
|}<br />
Example 1: If I have a robolink Dci small version robot with 5 degrees of freedom and output encoders,<br />
*my project file is <code>robolink_5Axis_small_AE.prj</code><br />
*my robot file is <code>IGUS_ARM_5DOF_SV_AE.xml</code><br />
<br />
Example 2: If I have a robolink Dci small version robot with 5 degrees of freedom and output encoders,<br />
*my project file is <code>robolink_5Axis_small.prj</code><br />
*my robot file is <code>IGUS_ARM_5DOF_SV.xml</code></div>OLT