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Estimation of Stator Resistance in Direct Torque Control Synchronous Motor Drives | IEEE Journals & Magazine | IEEE Xplore
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Estimation of Stator Resistance in Direct Torque Control Synchronous Motor Drives

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Younes Sangsefidi; Saleh Ziaeinejad; Ali Mehrizi-Sani; Hamidreza Pairodin-Nabi; Abbas Shoulaie
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Abstract:

Direct torque control (DTC) is a high-performance method that provides effective control of stator flux modulus and electromagnetic torque of electric motors. However, er...Show More

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Abstract:

Direct torque control (DTC) is a high-performance method that provides effective control of stator flux modulus and electromagnetic torque of electric motors. However, error in estimation of stator resistance significantly degrades the performance of a DTC drive system, especially for a synchronous motor. This paper discusses the problems associated with the error in stator resistance and proposes an analytical approach to investigate its effect on the actual and estimated variables of a synchronous motor. Based on how this error affects the estimated angle between the stator flux and current vectors, a method to track stator resistance variations is proposed. The presented analytical method and the proposed stator resistance estimation are validated using simulation and experimental case studies.
Published in: IEEE Transactions on Energy Conversion ( Volume: 30, Issue: 2, June 2015)
Page(s): 626 - 634
Date of Publication: 26 November 2014

ISSN Information:

DOI: 10.1109/TEC.2014.2364191
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Contents

I. Introduction

As an alternative to conventional vector-controlled synchronous motor drives, direct torque control (DTC)–based drives were proposed in the 1990s [1], [2]. Desirable features such as fast dynamic response, no need for mechanical sensors, simple structure, and less dependence on motor parameters [3] –[5] have made DTC drive systems an attractive option for the industry. DTC provides effective control of stator flux modulus and electromagnetic torque in a synchronous motor. However, one of its main limitations is that a priori knowledge of the stator resistance is required to estimate the stator flux vector and electromagnetic torque. Due to variations in temperature and frequency, stator resistance can vary considerably [3], [6]. A basic DTC synchronous drive with no provisions for correction for stator resistance is unable to track these variations, and consequently, its performance may degrade.

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