A Temporal and Spectral Analysis System Design, to Detect Vibration Failures in Electrical Motors

Main Article Content


Francisco Ernesto Moreno-García
José Armando Becerra-Vargas
Carlos Andrés Rendón-Echeverri


This document is based on the experimental development of a measurement and analysis vibrations system, to provide a study of the most relevant variables used in the spectral analysis of electric motors, in order to detect possible faults. This analysis system was implemented in a test bank developed by The Research Group in Automation and Control (GIAC) of the University Francisco de Paula Santander.


Article Details


The journal authorizes the total or partial reproduction of the published article, as long as the source, including the name of the Journal, author(s), year, volume, issue, and pages are cited.

The ideas and assertions expressed by the authors are their solely responsibility and do not represent the views and opinions of the Journal or its editors.

All articles included in the Revista Facultad de Ingeniería are published under the Creative Commons (BY) license.

Authors must complete, sign, and submit the Review and Publication Authorization Form of the manuscript provided by the Journal; this form should contain all the originality and copyright information of the manuscript.

The authors  keep copyright, however, once the work in the Journal has been published, the authors must always allude to it.

The Journal allows and invites authors to publish their work in repositories or on their website after the presentation of the number in which the work is published with the aim of generating greater dissemination of the work.


[1] F. Ramón, G. Mateo G. Diferentes tipos de vibraciones mecánicas. Universidad Autónoma de Santo Domingo, 1999. Disponible en: http://www.monografias.com/trabajos/vibramec/vibramec.shtml.

[2] J. Mejía M. Análisis de vibraciones en motores eléctricos asíncronos trifásicos. Universidad de San Carlos de Guatemala, 2009. Disponible en: http://biblioteca.usac.edu.gt/tesis/08/08_0158_ME.pdf.

[3] R. Torres R., C. Batista R. Análisis vibrodinámico de motores eléctricos. Universidad de Holguín, Cuba. 2010. Disponible en: http://scielo.sld.cu/scielo.php?script=sci_arttext&pid=S1815-59442010000100002.

[4] M. Fernández C., M. García M., G. Alfonso O., J. Cano R., J. Solares S. Técnicas para el mantenimiento y diagnóstico de máquinas eléctricas rotativas. España. 1998.

[5] D. Acosta A., J. Molina J. Adquisición de vibraciones mecánicas de un motor en funcionamiento usando Labview. Escuela Superior Politécnica del Litoral de Guayaquil. 2011. Disponible en: http://www.dspace.espol.edu.ec/handle/123456789/19459

[6] P. Saavedra, La medición y análisis de las vibraciones como técnica de inspección de equipos y componentes, aplicaciones, normativas y certificación. Universidad de Concepción, Facultad de Ingeniería, Concepción, Chile. 2011. Disponible en: http://www.aaende.org.ar/sitio/material/CONFCHILE.pdf

[7] M. Arenas M. Diseño e implementación de un sistema de adquisición de aceleraciones con procesamiento mediante microcontrolador. Universidad de Sevilla, 2008. Disponible en: http://bibing.us.es/proyectos/abreproy/11638.


Download data is not yet available.