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Reseach Article

Modeling Methods of Three Phase Induction Motor

Published on December 2013 by Geetanjali Manekar, Sanjay B. Bodkhe
National Conference on Innovative Paradigms in Engineering & Technology 2013
Foundation of Computer Science USA
NCIPET2013 - Number 5
December 2013
Authors: Geetanjali Manekar, Sanjay B. Bodkhe
a1c90fca-5f82-4ce4-aed7-a0d00b9dc397

Geetanjali Manekar, Sanjay B. Bodkhe . Modeling Methods of Three Phase Induction Motor. National Conference on Innovative Paradigms in Engineering & Technology 2013. NCIPET2013, 5 (December 2013), 16-20.

@article{
author = { Geetanjali Manekar, Sanjay B. Bodkhe },
title = { Modeling Methods of Three Phase Induction Motor },
journal = { National Conference on Innovative Paradigms in Engineering & Technology 2013 },
issue_date = { December 2013 },
volume = { NCIPET2013 },
number = { 5 },
month = { December },
year = { 2013 },
issn = 0975-8887,
pages = { 16-20 },
numpages = 5,
url = { /proceedings/ncipet2013/number5/14727-1378/ },
publisher = {Foundation of Computer Science (FCS), NY, USA},
address = {New York, USA}
}
%0 Proceeding Article
%1 National Conference on Innovative Paradigms in Engineering & Technology 2013
%A Geetanjali Manekar
%A Sanjay B. Bodkhe
%T Modeling Methods of Three Phase Induction Motor
%J National Conference on Innovative Paradigms in Engineering & Technology 2013
%@ 0975-8887
%V NCIPET2013
%N 5
%P 16-20
%D 2013
%I International Journal of Computer Applications
Abstract

This paper presents the qd and voltage-behind reactance model of three phase induction motor. The accurate behavioral modeling of induction motor helps in designing controller for the machine and is also useful in detection of faults in machines. The rotor subsystem is expressed in qd coordinates and the stator subsystem is expressed in abc phase coordinates. Computer studies of an induction motor for Voltage-behind-reactance model demonstrate the improvement in computational efficiency as compared with the qd or PD model. In this paper Voltage-behind-reactance model is developed in stationary reference frame using MATLAB-SIMULINK platform.

References
  1. Liwei Wang, Jur Jatskevich and Steven D. Pekarek, "Modeling of Indution Machines Using a Voltage-Behing-Reactance Formulation ,"IEEE Tran on Energy Conversion. Vol. 23, no. 2, pp. 382-392, June 2008.
  2. J. Nerg, J. Pyrhonen , and J. Partanen, "Finite Element Modeling of the Magnetizing inductance of an Induction Motor as Function of Torque". IEEE Trans. on Magnetics, vol. 40, no. 4, pp. 2047-2049, July 2004
  3. Damian S. Vilchis- Rodriguez and Enrique Acha, " Nodal Reduced Induction Machine Modeling for EMTP-Type Simulations," IEEE Tran on Power system, vol. 27 no. 3 p. 1158-1169, August 2012.
  4. Liwei Wang and Juri Jastskevich, " Including Magnetic Saturation in Voltage – Behind – Reactance Induction Machine model for EMTP-Type Solution," IEEE Tran. on Power system , vol. 25,no. 2 pp. 975-987, May 2010.
  5. Liwei Wang, and Juri Jatskevich," A Voltage-Behind-Reactance Synchronous Machine model for the EMTP-Type Solution," IEEE Tran. on Power system, vol. 21, no. 4, pp. 1539-1549 November 2006.
  6. Paul C. Krause, Oleg Wasynczuk and Scott D. Sudhoff, "Analysis of Electric Machinery and Drive systems".
Index Terms

Computer Science
Information Sciences

Keywords

Coupled-circuit(cc) Model Qd Model Voltage-behind-reactance (vbr) Model phase-domain Model Induction Machine Dynamic Simulation.