Habibur Rehman scite author profile

In this letter, a new sliding-mode sensorless control algorithm is proposed for the field-oriented induction machine drive. In the proposed algorithm, the terms containing flux, speed, and rotor time constant, which are common in both current and flux equations, in the current model of the induction machine are estimated by a sliding function. The flux and speed estimation accuracy is guaranteed when the error between the actual current and observed current converges to zero. Hence, the fourth-order system is reduced to two second-order systems, and the speed estimation becomes very simple and robust to the parameter uncertainties. The new approach is verified by simulation and experimental results.

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Universal Adaptive Stabilizer Based Optimization for Li-Ion Battery Model Parameters Estimation: An Experimental Study

Usman

Mukhopadhyay

Rehman

2018

IEEE Access

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A new current model flux observer for wide speed range sensorless control of an induction machine

Rehman

Derdiyok

Guven

et al. 2002

IEEE Trans. Power Electron.

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A new close loop current model flux observer is designed to estimate the rotor flux, position and velocity of an induction machine. The current observer includes carefully designed sliding mode functions which are derivative of the fluxes along the and axes. Therefore, when the estimated current converges to the measured one, the flux estimation is a mere integration of the sliding mode function. The rotor speed can then be derived from the sliding mode functions and the estimated flux. In the current and flux observers all of the terms that contain the rotor time constant and the rotor speed have been replaced by the sliding mode functions, thus making the proposed current and flux estimations completely insensitive to the rotor time constant variation and any error in the estimated speed. Simulations and experiments are performed under a variety of conditions to validate the effectiveness of the proposed algorithm.

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Alternative Energy Vehicles Drive System: Control, Flux and Torque Estimation, and Efficiency Optimization

Rehman

2011

IEEE Trans. Veh. Technol.

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Habibur Rehman

UAS based Li-ion battery model parameters estimation

Design and implementation of a new sliding-mode observer for speed-sensorless control of induction machine

Universal Adaptive Stabilizer Based Optimization for Li-Ion Battery Model Parameters Estimation: An Experimental Study

A new current model flux observer for wide speed range sensorless control of an induction machine

Alternative Energy Vehicles Drive System: Control, Flux and Torque Estimation, and Efficiency Optimization

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