A function block diagnostic framework for a multi‐vendor PROFIBUS environment-Reference-Cited by-同舟云学术

A function block diagnostic framework for a multi‐vendor PROFIBUS environment

Published:2007-08-07 Issue:3 Volume:27 Page:240-246
ISSN:0144-5154
Container-title:Assembly Automation
language:en
Short-container-title:

Author:

Kaghazchi Hassan,Joyce Ronan,Heffernan Donal

Abstract

PurposeThis paper sets out to highlight the problem associated with the development of fieldbus diagnostics in a multi‐vendor environment and to propose a solution based on diagnostic function blocks (FB).Design/methodology/approachThe work focuses on the “master‐slave” communication model in a PROFIBUS fieldbus system, where three different vendor solutions are investigated.FindingsAlthough the fieldbus standards specify the type and format of the diagnostics data, the extent, location and sequence of diagnostics data within a controller are entirely vendor‐dependent. The outcome from this work defines a framework for representing the diagnostics data in the context of a special function block.Originality/valueThis research work defines a novel unified framework for representing the fieldbus diagnostics data using FB for multi‐vendor solutions in a PROFIBUS environment.

Publisher

Emerald

Subject

Industrial and Manufacturing Engineering,Control and Systems Engineering

Reference11 articles.

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3. Luder, A., Schwab, C., Tangermann, M. and Peschke, J. (2005), “Formal models for the verification of IEC 61499 function block based control applications”, paper presented at 10th IEEE Conference on Emerging Technologies and Factory Automation (EFTA 2005), September,Vol. 1, pp. 105‐12.

4. Mitsubishi Electric (1999), “PROFIBUS‐DP interface module A1SJ71PB92D”, Art No: 136267.

5. PLC OTC (2005), “XML formats for IEC 61131‐3”, Technical Paper, PLC Open Technical Committee 6. V1.01. June 2005.

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