An adaptive sliding stator flux observer for a direct-torque-controlled IPM synchronous motor drive

Zhuang Xu; M. F. Rahman

doi:10.1109/TIE.2007.900328

An adaptive sliding stator flux observer for a direct-torque-controlled IPM synchronous motor drive

Zhuang Xu, M. F. Rahman

Research output: Journal Publication › Article › peer-review

133 Citations (Scopus)

Abstract

This paper focuses on performance improvements of the stator flux estimation for a direct-torque-controlled interior permanent magnet synchronous motor drive. In this paper, an adaptive sliding observer is presented to estimate the stator flux linkage based on the motor current model. The experimental results show that the proposed observer has been able to deliver more accurate estimation than an open-loop estimator both in the steady state and during transients. The observer has better dynamic behavior, disturbance resistance, and high-accuracy estimation ability. With the integrated flux observer, the drive system can operate at very low speed down to 10 r/min (0.33 Hz) with half full load.

Original language	English
Pages (from-to)	2398-2406
Number of pages	9
Journal	IEEE Transactions on Industrial Electronics
Volume	54
Issue number	5
DOIs	https://doi.org/10.1109/TIE.2007.900328
Publication status	Published - Oct 2007
Externally published	Yes

Keywords

Adaptive sliding observer
Direct torque control (DTC)
Interior permanent magnet (IPM) synchronous motor drive
Sensorless control
Stator flux

ASJC Scopus subject areas

Control and Systems Engineering
Electrical and Electronic Engineering

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10.1109/TIE.2007.900328

Cite this

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title = "An adaptive sliding stator flux observer for a direct-torque-controlled IPM synchronous motor drive",

abstract = "This paper focuses on performance improvements of the stator flux estimation for a direct-torque-controlled interior permanent magnet synchronous motor drive. In this paper, an adaptive sliding observer is presented to estimate the stator flux linkage based on the motor current model. The experimental results show that the proposed observer has been able to deliver more accurate estimation than an open-loop estimator both in the steady state and during transients. The observer has better dynamic behavior, disturbance resistance, and high-accuracy estimation ability. With the integrated flux observer, the drive system can operate at very low speed down to 10 r/min (0.33 Hz) with half full load.",

keywords = "Adaptive sliding observer, Direct torque control (DTC), Interior permanent magnet (IPM) synchronous motor drive, Sensorless control, Stator flux",

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AU - Xu, Zhuang

AU - Rahman, M. F.

PY - 2007/10

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N2 - This paper focuses on performance improvements of the stator flux estimation for a direct-torque-controlled interior permanent magnet synchronous motor drive. In this paper, an adaptive sliding observer is presented to estimate the stator flux linkage based on the motor current model. The experimental results show that the proposed observer has been able to deliver more accurate estimation than an open-loop estimator both in the steady state and during transients. The observer has better dynamic behavior, disturbance resistance, and high-accuracy estimation ability. With the integrated flux observer, the drive system can operate at very low speed down to 10 r/min (0.33 Hz) with half full load.

AB - This paper focuses on performance improvements of the stator flux estimation for a direct-torque-controlled interior permanent magnet synchronous motor drive. In this paper, an adaptive sliding observer is presented to estimate the stator flux linkage based on the motor current model. The experimental results show that the proposed observer has been able to deliver more accurate estimation than an open-loop estimator both in the steady state and during transients. The observer has better dynamic behavior, disturbance resistance, and high-accuracy estimation ability. With the integrated flux observer, the drive system can operate at very low speed down to 10 r/min (0.33 Hz) with half full load.

KW - Adaptive sliding observer

KW - Direct torque control (DTC)

KW - Interior permanent magnet (IPM) synchronous motor drive

KW - Sensorless control

KW - Stator flux

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An adaptive sliding stator flux observer for a direct-torque-controlled IPM synchronous motor drive

Abstract

Keywords

ASJC Scopus subject areas

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