Details

Title

Main inductances of induction motor for diagnostically specialized mathematical models

Journal title

Archives of Electrical Engineering

Yearbook

2010

Volume

vol. 59

Issue

No 1 - 2 September

Authors

Keywords

induction motors ; rotor fault diagnosis ; rotor eccentricity

Divisions of PAS

Nauki Techniczne

Coverage

51-66

Publisher

Polish Academy of Sciences

Date

2010

Type

Artykuły / Articles

Identifier

DOI: 10.2478/s10171-010-0004-1 ; ISSN: 1427-4221 ; eISSN: 2300-2506

Source

Archives of Electrical Engineering; 2010; vol. 59; No 1 - 2 September; 51-66

References

Sobczyk T. (1993), Inductances of electrical machine winding with a nonuniform airgap, Archiv fur Elektrotechnik, 76, 213. ; Stavron A. (1994), The on-line quantification of air-gap eccentricity in induction machines, Proc. of ICEM'94, Paris, 2, 261. ; Filippetti F. (1994), , Broken bar detection in induction machines: comparison between current spectrum approach and parameter estimation approach, IEEE 1994 Industry Applications Society Annual Meeting, Denver, 1, 95. ; Toliyat H. (1996), A Method for Dynamic Simulation of Air-Gap Eccentricity in Induction Machines, IEEE Trans. on Industry Applications, 32, 4, 910. ; Dorrell D. (1997), Analysis of airgap flux, current, and vibration signals as a function of the combination of static and dynamic airgap eccentricity in 3-phase induction motors, IEEE Trans. on Industry Applications, 33, 1, 24. ; Thomson W. (1998), An appraisal of the m.m.f. permeance method and finite element models to study static air gap eccentricity and its diagnosis in induction machines, null, 2182. ; Tu X. (2006), A New Model of Synchronous Machine Internal Faults Based on Winding Distribution, Industrial Electronics, IEEE Transactions on, 53, 6, 1818. ; Bellini A. (2005), Assessment of induction machines rotor fault severity by different approaches, null, 1461. ; Sudhoff S. (2007), Magnetic Equivalent Circuit Modeling of Induction Motors, Energy Conversion, IEEE Transaction on, 22, 259. ; Bachir S. (2006), Diagnosis by parameter estimation of stator and rotor faults occurring in induction machines, Trans. on Industrial Electronics, 53, 3, 963. ; Jung J.-H. (2006), Online Diagnosis of Induction Motors Using MCSA, Industrial Electronics, IEEE Transactions on, 53, 6, 1842. ; Xianghui Huang (2007), Using a Surge Tester to Detect Rotor Eccentricity Faults in Induction Motors, Industry Applications, IEEE Transactions on, 43, 5, 1183. ; Xiaodong Li (2007), Performance Analysis of a Three-Phase Induction Machine With Inclined Static Eccentricity, Industry Applications, IEEE Transactions on, 43, 2, 531. ; Heller B. (1977), Harmonic field effects in induction machines. ; Nandi S. (2001), Detection of Rotor Slot and Other Eccentricity-Related Harmonics in a Three-Phase Induction Motor with Different Rotor Cages, Power Engineering Review, IEEE, 21, 9, 62. ; Nandi S. (2004), Modeling of induction machines including stator and rotor slot effects, Industry Applications, IEEE Trans on, 40, 4, 1058. ; Sobczyk T. (1999), Theoretical Study of Effects due to Rotor Eccentricities in Induction Motors, null, 289. ; Moreira J. (1992), Modeling of saturated AC machines including air gap flux harmonic components, IEEE Trans. on Industry Applications, 28, 2, 343. ; Sobczyk T. (2003), Effects in stator currents of cage motors due to saturation of main magnetic circuit, null. ; Warzecha A. (2005), Czasopismo Techniczne, 87. ; Nandi S. (2004), A detailed model of induction machines with saturation extendable for fault analysis, Industry Applications, IEEE Transactions on, 40, 5, 1302.
×