| F.J. Villalobos-Piña | TecNM/Instituto Tecnológico de Aguascalientes |
| C.H. Saucedo-Zarate | TecNM/Instituto Tecnológico de Aguascalientes |
| M.A. Gonzalez-Garcia | Universidad Autónoma de San Luis Potosí |
| L.A. Gonzalez-Murillo | Universidad Autónoma de San Luis Potosí |
| R. Alvarez-Salas | Universidad Autónoma de San Luis Potosí |
| J.A. Reyes-Malanche | Universidad Tecnológica de Aguascalientes |
https://doi.org/10.58571/CNCA.AMCA.2022.032
Resumen: This paper presents a low-cost DSP-based vibration data acquisition system with a high data storage capacity for fault detection in electric motors. An outer race bearing fault detection case study for a three-phase induction machine using vibration signals provided by the DSP-based acquisition system from a test rig is detailed. The fault detection scheme is performed based on Fast Fourier Transform (FFT) and Discrete Wavelet Transform (DWT).
¿Cómo citar?
Villalobos-Piña, F.J., Alvarez-Salas, R., Gonzalez-Garcia, M.A., Reyes-Malanche, J.A., Saucedo-Zarate, C.H. & Gonzalez-Murillo, L.A. Low-cost DSP-based vibration data acquisition system for bearing fault detection in electric motors. Memorias del Congreso Nacional de Control Automático, pp. 398-403, 2022. https://doi.org/10.58571/CNCA.AMCA.2022.032
Palabras clave
Detección y Aislamiento de Fallas; Sistemas Electromecánicos
Referencias
- Bellini, A., Filippetti, F., Tassoni, C., and Capolino, A.G. (2008a). Advances in diagnostic techniques for induction machines. IEEE Transactions on Industrial Electronics, 55(12), 4109–4126.
- Bellini, A., Immovilli, F., Rubini, R., and Tassoni, C. (2008b). Diagnosis of bearing faults in induction machines by vibration or current signals: a critical comparison. IEEE Transaction on Industrial Electronics, 5, 1–8.
- Cruz, S.M.A. and Cardoso., A.J.M. (1999). Rotor cage fault diagnosis in three-phase induction motors by extended Park’s vector approach. Industry Applications Conference, Vol. 3, 1929–1934.
- Cruz, S.M.A. and Cardoso, A.J.M. (2001). Stator winding fault diagnosis in three-phase synchronous and asynchronous motors, by the extended Park’s vector approach. IEEE Transcations on Industry Applications, 37(5), 1227–1233.
- Elbouchikhi, E., Choqueuse, V., and Benbouzid, M. (2016). Induction machine bearing faults detection based on a multi-dimensional music algorithm and maximum likelihood estimation. ISA Transactions, 63, 413–424.
- Immovilli, F., Cocconcelli, M., Bellini, A., and Rubini, R. (2009). Detection of generalized-roughness bearing fault by spectral-kurtosis energy of vibration or current signals. IEEE Transactions on Industrial Electronics, 56(11), 4710–4717.
- Mujica, H. and Espinoza-Pérez, G. (2014). Control no lineal basado en pasividad de motores de inducción para alto desempeño dinámico. Revista Iberoamericana de Automática e Informática industrial, 11, 32–43.
- Pacheco-Cherres, J., Fortoul-D´ıaz, J.A., Cortés-Santacruz, F., Aloso-Valerdi, L.M., and Ibarra-Zarate, D.I. (2022). Bearing fault detection with vibration and acoustic signals: Comparison among different machine learning classification methods. Engineering Failure Analysis, 139.
- Silva, J.L.H. and Cardoso., A.J.M. (2005). Bearing failures diagnosis in three-phase induction motors by extended Park’s vector approach. IECON 31st. Annual Conference of IEEE, 2591–2596.
- Tiwari, P. and Upadhyay, S.H. (2021). Novel selfadaptative vibration signal analysis: Concealed component decomposition and its application in bearing fault diagnosis. Journal of Sound and Vibration, 502.
- Toliyat, H., Nandi, S., Choi, S., and Meshing-Kelk, H. (2013). Electrical Machines. CRC Press. USA, 1 edition. Trigeassou, J. (2011). Electrical Machines Diagnosis. Wiley USA, 1 edition.
- Verde, C., Gentil, S., and Morales-Menéndez, R. (2013). Monitoreo y diagnóstico automático de fallas en sistemas dinámicos. Trillas México.
- Walker, J. (2008). A Primer on Wavelets and Their Scientific Applications. Chapman & Hall/CRC, 2nd edition.
- Zoubek, H., Villwock, S., and Pacas, M. (2008). Frequency response analysis for rolling-bearing damage diagnosis. IEEE Transactions on Industrial Electronics, 55(12), 4270–4275.