A Fractional Order Controller for Sensorless Speed Control of an Induction Motor

Tayyaba Nosheen ^{1, 2}

Ahsan Ali ¹

Muhammad Umar Chaudhry ³

Dmitry Nazarenko ⁴

Inam ul Hasan Shaikh ¹

Vadim Bolshev ^{4, 5}

Muhammad Munwar Iqbal ⁶

Sohail Khalid ²

Vladimir Panchenko ⁷

Show full list: 9 authors

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Department of Electrical Engineering, University of Engineering and Technology, Taxila 47070, Pakistan |

Department of Electrical Engineering, Riphah International University, Islamabad 45210, Pakistan |

Department of Computer Science, MNS-University of Agriculture, Multan 66000, Pakistan |

⁴

Laboratory of Intelligent Agricultural Machines and Complexes, Don State Technical University, 344000 Rostov-on-Don, Russia |

⁵

Federal Scientific Agroengineering Center VIM, 109428 Moscow, Russia |

⁶

Department of Computer Science, University of Engineering and Technology, Taxila 47070, Pakistan |

⁷

Department of Theoretical and Applied Mechanics, Russian University of Transport, 127994 Moscow, Russia |

Publication type: Journal Article

Publication date: 2023-02-14

MDPI

Journal: Energies

scimago Q1

SJR: 0.651

CiteScore: 6.2

Impact factor: 3

ISSN: 19961073

DOI: 10.3390/en16041901

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Electrical and Electronic Engineering

Energy Engineering and Power Technology

Renewable Energy, Sustainability and the Environment

Building and Construction

Control and Optimization

Engineering (miscellaneous)

Energy (miscellaneous)

Abstract

Agriculture activities are completely dependent upon energy production worldwide. This research presents sensorless speed control of a three-phase induction motor aided with an extended Kalman filter (EKF). Although a proportional integral (PI) controller can ensure tracking of the rotor speed, a considerable magnitude of ripples is present in the torque generated by a motor. Adding a simple derivative to have a proportional integral derivative (PID) action can cause a further increase in ripple magnitude, as it allows the addition of high-frequency noise in the system. Therefore, a fractional-order-based PID control is presented. The proposed control scheme is applied in a closed loop with the system, and simulation results are compared with the PID controller. It is evident from the results that the fractional order control not only ensures 20 times faster tracking, but ripple magnitude in torque was also reduced by a factor of 50% compared to that while using PID and ensures the effectiveness of the proposed strategy.

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