DocumentCode
1443257
Title
Improved procedures for estimating amplitudes and phases of harmonics with application to vibration analysis
Author
Santamaría-Caballero, Ignacio ; Pantaleón-Prieto, Carlos J. ; Ibáñez-Díaz, Jesús ; Gómez-Cosío, Enrique
Author_Institution
DICOM, Cantabria Univ., Santander, Spain
Volume
47
Issue
1
fYear
1998
fDate
2/1/1998 12:00:00 AM
Firstpage
209
Lastpage
214
Abstract
In this paper, we propose two procedures for accurate amplitude and phase estimation of multifrequency signals in rotating machinery. The first method reduces the amplitude attenuation and phase shift caused by the “nonflat” top of the main lobe of the window. The second procedure is able to reduce not only the leakage effects due to windowing but also the distortion that appears when the rotation frequency changes slowly. This second method uses an additional sensor, giving one pulse per revolution, to transform the input (asynchronous) signal into a synchronous signal having a fixed number of samples per revolution. The performance and effectiveness of both procedures are illustrated by means of simulation examples
Keywords
amplitude estimation; discrete Fourier transforms; frequency estimation; harmonics; interpolation; phase estimation; signal sampling; spectral analysis; Taylor series; accurate estimation; amplitude attenuation; amplitude estimation; asynchronous to synchronous conversion; discrete Fourier transform; frequency estimation; harmonics; linear interpolation; multifrequency signals; nonflat top; phase estimation; phase shift; reduced distortion; reduced leakage effects; rotating machinery; short range leakage; signal transformation; sinusoidal signals; spectral analysis; vibration analysis; window main lobe; windowing; Amplitude estimation; Fluctuations; Frequency estimation; Harmonic analysis; Machinery; Phase estimation; Rotating machines; Sampling methods; Shafts; Signal analysis;
fLanguage
English
Journal_Title
Instrumentation and Measurement, IEEE Transactions on
Publisher
ieee
ISSN
0018-9456
Type
jour
DOI
10.1109/19.728820
Filename
728820
Link To Document