The Self-Excitation Phenomenon of Quasi Shielded Inductive Proximity Switches

Piotr Michalski; Mariusz Piotr Hetmańczyk

doi:10.4028/www.scientific.net/AMR.837.405

Paper Titles

About Variability of Using of Methods of the Shape Identification Based on Geometrical Correlation
p.381

A Survey on Capp Systems Development Methods
p.387

Virtual Analysis of the Mining Support under Loads of the Roof
p.393

The Aid of a Mistake Proofing with the use of Mechatronic Systems According to the Poka-Yoke Methodology
p.399

The Self-Excitation Phenomenon of Quasi Shielded Inductive Proximity Switches
p.405

Aspects Concerning the Dynamics of the Mechanisms with Clearances
p.411

The Model of Discrete Production Scheduling System in UML Notation - Classes Diagrams
p.416

The Graph Representation of Multivariant and Complex Processes for Production Scheduling
p.422

Theoretical and Data-Based Mathematical Model of a Special Vehicle Breaking System
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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 837The Self-Excitation Phenomenon of Quasi Shielded...

The Self-Excitation Phenomenon of Quasi Shielded Inductive Proximity Switches

Abstract:

Authors of this article had to build the Poka-Yoke [ unit for unusual geometry element, which require to use the inductive proximity switches with relatively small diameter and good sensing range. Industrial sensors suppliers putted on to the market new type of sensor named quasi flush or semi flush which fulfill the needs. An article shows the observed influence of the geometry of tested elements for the self-excitation phenomenon of quasi shielded inductive proximity switches. In consequence this phenomenon can cause in false quality control and passing the wrong elements through the Poka-Yoke unit.

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Periodical:

Advanced Materials Research (Volume 837)

Pages:

405-410

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.837.405

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Online since:

November 2013

Authors:

Piotr Michalski, Mariusz Piotr Hetmańczyk

Keywords:

Machining Science, New Industrial Sensors, Quality Inspection, Quasi Shielded Inductive Proximity Switches

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References

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