Diagnosis of induction machines under non-stationary conditions by means of the spectral filter

Abstract: Φ Abstract --This paper introduces a new way to extract the fault components of a signal by means of a new proposed filter based on the Sampling Theorem and the properties of Discrete Fourier Transform. The proposed method is able to extract fault components either in steady-state or in transient conditions. This paper also proposes a new way to compute the energy of a signal in the frequency domain by means of the Plancherel's Theorem. Unlike the Discrete Wavelet Transform, which makes the filtering process i… Show more

“…A recent work [10] proposes a different method for extracting the fault component, which is based on performing the extraction and quantification of the fault component in the frequency domain, instead of in time domain, using the so called spectral filter. The authors state that this methodology fix the problems associated to the use of DWT, since it allows an accurate extraction of the fault component without the need for any pre-treatment and furthermore, it reduces the time of computation.…”

Transient diagnosis of induction generators via atom-based time-frequency transforms

“…A recent work [10] proposes a different method for extracting the fault component, which is based on performing the extraction and quantification of the fault component in the frequency domain, instead of in time domain, using the so called spectral filter. The authors state that this methodology fix the problems associated to the use of DWT, since it allows an accurate extraction of the fault component without the need for any pre-treatment and furthermore, it reduces the time of computation.…”

Transient diagnosis of induction generators via atom-based time-frequency transforms

Electric Machine Design and Fault Diagnosis for Electric Aircraft Propulsion in the Context of the Engineering Research Center for the Aerial Mobility of the Future