Resumen
El presente trabajo muestra un esquema de diagnóstico de fallas eléctricas del estator en diferentes regímenes de velocidad y par constante en motores tipo BLDC de vehículos eléctricos ligeros mediante el análisis de tres escenarios diferentes de velocidad con una falla en el devanado del estator de la fase C. Para efectuar el diagnóstico de la falla se adquiere información eléctrica de las corrientes del estator y mediante el uso del fasor de espacio instantáneo de Park (ISP, por sus siglas en inglés) se analiza el módulo de dicho fasor mediante la técnica tiempo-frecuencia conocida como transformada rápida de Fourier (FFT, por sus siglas en inglés), lo cual permite identificar la firma de fallas eléctrica del estator en función de su velocidad para cada uno de los escenarios de velocidad estudiados.
Palabras Clave: Diagnóstico de falla, fasor de espacio instantáneo, motor BLDC, transformada rápida de Fourier.

Abstract
In this work a scheme of stator’s electric fault diagnosis is showed in different velocity regimes and constant torque in motors type BLDC of electric light vehicles by means of three different stages velocity analysis with a stator’s winding fault on phase C. To be made fault diagnosis the stator´s electrical currents information is acquired and by to use the instantaneous space phasor (ISP), the modulus of its phasor is analyzed through the time-frequency technique known as fast Fourier transform, thus allows identity the stator’s signature fault in function of its velocity for each of one velocity-schemes studied.
Keywords: BLDC motor, fast Fourier transform, fault diagnosis, instantaneous space phasor.

Racewicz Szymon, Kazimierczuk Pawel, Kolator B Andrzej and Olszewski Andrzej, Use of 3 kw bldc motor for light two-wheeled electric vehicle construction, IOP Conferences Series: Material Science and Engineering, Vol. 421, pag. 042-067, 2018.

Y. Gritli, A. Bellini, C. Rossi, D. Casadei, F. Filipetti and G. Capolino, Condition monitoring of mechanical faults in induction machines from electrical signatures: review of different techniques, 2017 IEEE 11th International Symposium on Diagnostics for Electrical Machines, Power Electronics and Drives (SDEMPED), Tinos, pag. 77-84, 2017.

J. Faiz and A. Jafari, Interturn fault diagnosis in brushless direct current motor- a review, 2018 IEEE International Conference on Industrial Technology (ICIT), Lyon, pag. 437-444, 2018.

A. Bulgakov and T. Kruglova, Intelligent method for fault finding of electric drive based on wavelet analysis of its electrical and mechanical parameters, International Conference on Industrial Engineering, ICIE 2017, Procedia Engineering, vol. 206, pag. 929-935, 2017.

S. Prakash and S. Sherine, Control of bldc motor powered electric vehicle using indirect vector control and sliding mode observer, International Journal of Pure and Applied Mathematics, vol 116, no.19, pag. 295-300, 2017.

Caixia Huang, Fei Lei, Xu Han and Zhiyong Zhang, Determination of modeling parameters for brushless dc motor that satisfies the power performance of an electric vehicle, Measurement and Control, vol 52, pag 765-774, 2019.

S.M. Hosseini, F. Hosseini and M. Abedi, Stator fault diagnosis of a bldc motor based on discrete wavelet analysis using ADAMS simulation, SN Applied Sciences, vol 1, no 1406, 2019.

V. Izadi, M. Abedi and H. Bolandi, Supervisory algorithm based on reaction wheel modeling and spectrum analysis for detection and classification of electromechanical faults, in IET Science, Measurement & Technology, vol 11, no 8, pag. 1085-1093, 2017.

S. Lee and J. Hur, Detection technique of stator inter-turn faults in bldc motors based on third-harmonic components of line currents, in IEEE Transactions on Industry Applications, vol 53, no 1, pag. 143-150, 2017.

OdunAyo Imoru, M. Arun Bhaskar, Adisa Abdul-Ganiyu Jimoh and Yskandar Hamam, Diagnosis of stator shorted-turn faults in induction machines using discret wavelet transform, African Journal of Science, Technology, Innovation and Development, vol 9, no 3, pag. 349-355, 2017.

E. Mitronikas, D. Papathanasopoulos, G. Athanasiou and S. Tsotoulidis, Hall-effect sensor fault identification in brushless dc motor drives using wavelets, 2017 IEEE 11th International Symposium on Diagnostics for Electrica Machines Power Electronics and Drives (SDEMPED), Tinos, pag. 434-440, 2017.

D. Papathanasopoulos, G. Athanasiou, S. Tsotoulidis and E. Mitronikas, Fault identification on hall-effect sensors positioning in brushless dc motor drives via a fuzzy inference system, 2017 IEEE 11th International Symposium on Diagnostics for Electrica Machines Power Electronics and Drives (SDEMPED), Tinos, pag. 311-317, 2017.

D. Zhang, G. Liu, H. Zhou and W. Zhao, Adaptive sliding mode fault-tolerant coordination control for four-wheel independently driven electric vehicles, in IEEE Transactions on Industrial Electronics, vol 65, no 11, pag.9090-9100, 2018.

Huan Liu and Hui Zhang, An improved dtc for in-wheel bldc motors in micro all-electric vehicles, Automatika, vol 57, no 3, pag. 648-659, 2016.

H. Xue, J. Zhou, M. Wang, Z. Li and H. Jiang, Using rotating speed monitoring for leakage fault diagnosis of in-wheel motor, Journal of applied Science and Engineering, vol 2, no 22, pag. 307-314, 2019.

J.M. Angulo-Usategui, B. García-Zapirain, I. Angulo-Martínez and J.V. Sáez, Microcontroladores avanzados dspic controladores digitales de señales, arquitectura, programación y aplicaciones, Thomson editores Spain, pag.32, 2006.

Michael Weeks, Digital signals processing using matlab and wavelets, Georgia State University, Infinite Sciencie press LCC, pag. 187-191, 2007.