A Flux and Speed Observer for Sensorless SPIM Applications

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8 Citazioni (Scopus)

Abstract

It is usual to find single-phase induction motor (SPIM) in several house, office, shopping, farm, and industry appliances, which is become more sophisticated and requires the development of high performance alternatives to drive a SPIM. All proposed strategies to improve the performance SPIM need the evaluation of the rotational speed or position information. Since the use of conventional sensors to measure the rotational speed cannot be justified for SPIM applications, the adoption of a sensorless strategy is a more reasonable option for these cases. This paper presents a flux and speed observer for sensorless applications involving SPIMs. The performance of the proposed observer is verified using computational simulations and the experimental results obtained from its practical implementation.
Lingua originaleEnglish
Stato di pubblicazionePublished - 2010

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Induction motors
Fluxes
Farms
Sensors
Industry

All Science Journal Classification (ASJC) codes

  • Electrical and Electronic Engineering
  • Mechanical Engineering

Cita questo

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title = "A Flux and Speed Observer for Sensorless SPIM Applications",
abstract = "It is usual to find single-phase induction motor (SPIM) in several house, office, shopping, farm, and industry appliances, which is become more sophisticated and requires the development of high performance alternatives to drive a SPIM. All proposed strategies to improve the performance SPIM need the evaluation of the rotational speed or position information. Since the use of conventional sensors to measure the rotational speed cannot be justified for SPIM applications, the adoption of a sensorless strategy is a more reasonable option for these cases. This paper presents a flux and speed observer for sensorless applications involving SPIMs. The performance of the proposed observer is verified using computational simulations and the experimental results obtained from its practical implementation.",
keywords = "observer , sensorless , single-phase induction motor , speed estimation",
author = "Vittorio Cecconi and {Di Tommaso}, {Antonino Oscar} and Massimo Caruso and Ronilson Rocha",
year = "2010",
language = "English",

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T1 - A Flux and Speed Observer for Sensorless SPIM Applications

AU - Cecconi, Vittorio

AU - Di Tommaso, Antonino Oscar

AU - Caruso, Massimo

AU - Rocha, Ronilson

PY - 2010

Y1 - 2010

N2 - It is usual to find single-phase induction motor (SPIM) in several house, office, shopping, farm, and industry appliances, which is become more sophisticated and requires the development of high performance alternatives to drive a SPIM. All proposed strategies to improve the performance SPIM need the evaluation of the rotational speed or position information. Since the use of conventional sensors to measure the rotational speed cannot be justified for SPIM applications, the adoption of a sensorless strategy is a more reasonable option for these cases. This paper presents a flux and speed observer for sensorless applications involving SPIMs. The performance of the proposed observer is verified using computational simulations and the experimental results obtained from its practical implementation.

AB - It is usual to find single-phase induction motor (SPIM) in several house, office, shopping, farm, and industry appliances, which is become more sophisticated and requires the development of high performance alternatives to drive a SPIM. All proposed strategies to improve the performance SPIM need the evaluation of the rotational speed or position information. Since the use of conventional sensors to measure the rotational speed cannot be justified for SPIM applications, the adoption of a sensorless strategy is a more reasonable option for these cases. This paper presents a flux and speed observer for sensorless applications involving SPIMs. The performance of the proposed observer is verified using computational simulations and the experimental results obtained from its practical implementation.

KW - observer , sensorless , single-phase induction motor , speed estimation

UR - http://hdl.handle.net/10447/51619

M3 - Paper

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