Development of a flux, speed and rotor time constant estimation scheme for the sensorless induction motor drive

Mihai Comanescu

doi:10.1109/SLED.2017.8078452

Development of a flux, speed and rotor time constant estimation scheme for the sensorless induction motor drive

Mihai Comanescu

Division of Business, Engineering, and Information Sciences & Technology (Altoona)

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

8 Scopus citations

Abstract

The paper presents a control scheme for the sensorless induction motor that yields the estimates of the fluxes, motor speed and inverse of the rotor time constant. The motor is field-oriented using Direct Field Orientation -The stationary frame fluxes are obtained from a combined Current and Voltage Model Observer. The speed is obtained from a flux-based MRAS sliding mode observer. More importantly, the rotor time constant inverse is estimated from a sliding mode observer using a simple dynamic model. The availability of the rotor time constant improves the speed estimation accuracy and allows implementation of a more robust sensorless control scheme.

Original language	English (US)
Title of host publication	Conference Proceedings - 2017 8th International Symposium on Sensorless Control for Electrical Drives, SLED 2017
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	213-218
Number of pages	6
ISBN (Electronic)	9781509065875
DOIs	https://doi.org/10.1109/SLED.2017.8078452
State	Published - Oct 20 2017
Event	8th International Symposium on Sensorless Control for Electrical Drives, SLED 2017 - Catania, Italy Duration: Sep 18 2017 → Sep 19 2017

Publication series

Name	Conference Proceedings - 2017 8th International Symposium on Sensorless Control for Electrical Drives, SLED 2017

Other

Other	8th International Symposium on Sensorless Control for Electrical Drives, SLED 2017
Country/Territory	Italy
City	Catania
Period	9/18/17 → 9/19/17

All Science Journal Classification (ASJC) codes

Electrical and Electronic Engineering
Mechanical Engineering
Control and Optimization

Access to Document

10.1109/SLED.2017.8078452

Cite this

Comanescu, M. (2017). Development of a flux, speed and rotor time constant estimation scheme for the sensorless induction motor drive. In Conference Proceedings - 2017 8th International Symposium on Sensorless Control for Electrical Drives, SLED 2017 (pp. 213-218). Article 8078452 (Conference Proceedings - 2017 8th International Symposium on Sensorless Control for Electrical Drives, SLED 2017). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/SLED.2017.8078452

Comanescu, Mihai. / Development of a flux, speed and rotor time constant estimation scheme for the sensorless induction motor drive. Conference Proceedings - 2017 8th International Symposium on Sensorless Control for Electrical Drives, SLED 2017. Institute of Electrical and Electronics Engineers Inc., 2017. pp. 213-218 (Conference Proceedings - 2017 8th International Symposium on Sensorless Control for Electrical Drives, SLED 2017).

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title = "Development of a flux, speed and rotor time constant estimation scheme for the sensorless induction motor drive",

abstract = "The paper presents a control scheme for the sensorless induction motor that yields the estimates of the fluxes, motor speed and inverse of the rotor time constant. The motor is field-oriented using Direct Field Orientation -The stationary frame fluxes are obtained from a combined Current and Voltage Model Observer. The speed is obtained from a flux-based MRAS sliding mode observer. More importantly, the rotor time constant inverse is estimated from a sliding mode observer using a simple dynamic model. The availability of the rotor time constant improves the speed estimation accuracy and allows implementation of a more robust sensorless control scheme.",

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year = "2017",

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doi = "10.1109/SLED.2017.8078452",

language = "English (US)",

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Comanescu, M 2017, Development of a flux, speed and rotor time constant estimation scheme for the sensorless induction motor drive. in Conference Proceedings - 2017 8th International Symposium on Sensorless Control for Electrical Drives, SLED 2017., 8078452, Conference Proceedings - 2017 8th International Symposium on Sensorless Control for Electrical Drives, SLED 2017, Institute of Electrical and Electronics Engineers Inc., pp. 213-218, 8th International Symposium on Sensorless Control for Electrical Drives, SLED 2017, Catania, Italy, 9/18/17. https://doi.org/10.1109/SLED.2017.8078452

Development of a flux, speed and rotor time constant estimation scheme for the sensorless induction motor drive. / Comanescu, Mihai.
Conference Proceedings - 2017 8th International Symposium on Sensorless Control for Electrical Drives, SLED 2017. Institute of Electrical and Electronics Engineers Inc., 2017. p. 213-218 8078452 (Conference Proceedings - 2017 8th International Symposium on Sensorless Control for Electrical Drives, SLED 2017).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

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N2 - The paper presents a control scheme for the sensorless induction motor that yields the estimates of the fluxes, motor speed and inverse of the rotor time constant. The motor is field-oriented using Direct Field Orientation -The stationary frame fluxes are obtained from a combined Current and Voltage Model Observer. The speed is obtained from a flux-based MRAS sliding mode observer. More importantly, the rotor time constant inverse is estimated from a sliding mode observer using a simple dynamic model. The availability of the rotor time constant improves the speed estimation accuracy and allows implementation of a more robust sensorless control scheme.

AB - The paper presents a control scheme for the sensorless induction motor that yields the estimates of the fluxes, motor speed and inverse of the rotor time constant. The motor is field-oriented using Direct Field Orientation -The stationary frame fluxes are obtained from a combined Current and Voltage Model Observer. The speed is obtained from a flux-based MRAS sliding mode observer. More importantly, the rotor time constant inverse is estimated from a sliding mode observer using a simple dynamic model. The availability of the rotor time constant improves the speed estimation accuracy and allows implementation of a more robust sensorless control scheme.

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Comanescu M. Development of a flux, speed and rotor time constant estimation scheme for the sensorless induction motor drive. In Conference Proceedings - 2017 8th International Symposium on Sensorless Control for Electrical Drives, SLED 2017. Institute of Electrical and Electronics Engineers Inc. 2017. p. 213-218. 8078452. (Conference Proceedings - 2017 8th International Symposium on Sensorless Control for Electrical Drives, SLED 2017). doi: 10.1109/SLED.2017.8078452

Development of a flux, speed and rotor time constant estimation scheme for the sensorless induction motor drive

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