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Linear Motion Systems Selection Criteria | P.O.S.T.L.U.D.E.S.
Linear Motion System Selection Criteria | P.O.S.T.L.U.D.E.S.

Linear Motion System Selection Criteria | P.O.S.T.L.U.D.E.S.

When choosing Linear Motion Systems, it's important to consider several factors for your application. The acronym P.O.S.T.L.U.D.E.S can help you ask the essential questions to identify the best product.

P — Precision

  • What is more important, accuracy or repeatability?
  • What is the accuracy/repeatability requirement?
  • Are these values realistic, based upon the desired motion profile?

O — Orientation

  • How will the system be mounted? (“normal”, on its side, inverted, vertical, at an angle, etc.)
  • How will this affect the load requirements?

S — Speed

  • What is the maximum speed and acceleration required?
  • What is the maximum jerk allowable?
  • What motion profile (shape) is desired?

T — Travel

  • What is the required travel (stroke)?
  • What is the overall envelope allowed?
  • How much over-travel (safety zone) is required?

L — Load

  • What is End of Arm Tooling (EOAT) and where is it located?
  • What additional forces are seen by the system during use (e.g., cutting or pushing forces)?
  • What do the static and dynamic free body diagrams look like? Have all loads been accounted for?
  • What is expected of the system after an impact?

U — Unknown

  • What are the known unknowns? What is a reasonable value for these unknowns?
  • How will someone misuse this system?
  • What could possibly go wrong?
  • What else could go wrong? (Repeat this question until you can’t think of anything else!)

D — Duty Cycle

  • What is the actual duty cycle for the system?
  • What is the expected lifetime?

E — Environment

  • In what environment will the system be installed?
  • Are there any hazards in the environment?
  • What is the maintenance schedule, and is the system accessible for maintenance/lubrication?
  • Are there contaminants in the environment which can damage the motion system?
  • Will the system disburse contaminants into the environment that could damage other equipment or products

S — Safety

  • Are there any safety standards to which this system needs to conform?
  • What could happen if the system fails?
  • Are there safeguards that need to be installed for a system failure?
  • Could people be injured by this system? If so, how will the system be protected?