Search engine for discovering works of Art, research articles, and books related to Art and Culture
ShareThis
Javascript must be enabled to continue!

Online Rotor and Stator Resistance Estimation Based on Artificial Neural Network Applied in Sensorless Induction Motor Drive

View through CrossRef
This paper presents a new approach method for online rotor and stator resistance estimation of induction motors using artificial neural networks for the sensorless drive. In this method, the rotor resistance is estimated by a feed-forward neural network with the learning rate as a function. The stator resistance is also estimated using the two-layered neural network with learning rate as a function. The speed of the induction motor is also estimated by the neural network. Therefore, the accurate estimation of the rotor and stator resistance improved the quality of the sensorless induction motor drive. The results of simulation and experiment show that the estimated speed tracks the real speed of the induction motor; simultaneously, the error between the estimated rotor and stator resistance using neural network and the normal rotor and stator resistance is very small.
Title: Online Rotor and Stator Resistance Estimation Based on Artificial Neural Network Applied in Sensorless Induction Motor Drive
Description:
This paper presents a new approach method for online rotor and stator resistance estimation of induction motors using artificial neural networks for the sensorless drive.
In this method, the rotor resistance is estimated by a feed-forward neural network with the learning rate as a function.
The stator resistance is also estimated using the two-layered neural network with learning rate as a function.
The speed of the induction motor is also estimated by the neural network.
Therefore, the accurate estimation of the rotor and stator resistance improved the quality of the sensorless induction motor drive.
The results of simulation and experiment show that the estimated speed tracks the real speed of the induction motor; simultaneously, the error between the estimated rotor and stator resistance using neural network and the normal rotor and stator resistance is very small.

Related Results

Sliding Mode Controlled drives for wide speed operation of Threephase Induction Motor
Sliding Mode Controlled drives for wide speed operation of Threephase Induction Motor
Induction motor is widely used due to advantages in terms of performance, size, maintenance and efficiency compared to dc motor. Induction motor is either Scalar Controlled or Vect...
Development and thermal modeling of an induction machine
Development and thermal modeling of an induction machine
In induction machines, the major concern is the temperature rise since it determines the maximum loading, in an attempt to avoid insula-tion deterioration and eventual loss of moto...
Investigations on Unsteady Flow Structure Formation in Tandem Bladed Axial Flow Compressor Stage
Investigations on Unsteady Flow Structure Formation in Tandem Bladed Axial Flow Compressor Stage
Abstract The axial compressors suffer from the risk of flow separation upon increasing the loading beyond a certain limit due to increased boundary layer thickness o...
Sensorless Direct Power Control of Induction Motor Drive Using Artificial Neural Network
Sensorless Direct Power Control of Induction Motor Drive Using Artificial Neural Network
This paper proposes the design of sensorless induction motor drive based on direct power control (DPC) technique. It is shown that DPC technique enjoys all advantages of pervious m...
Five-Phase Sensorless Induction Motor Drives With Lc Filter For High Power Applications
Five-Phase Sensorless Induction Motor Drives With Lc Filter For High Power Applications
Multi-phase IM drive systems are nowadays seen as a possible alternative to the three-phase drives due to their features that are especially suited for high power applications such...
Overview of AC Motor Sensorless Algorithms: a Unified Perspective
Overview of AC Motor Sensorless Algorithms: a Unified Perspective
This paper reviews sensorless algorithms for both induction motors and permanent magnet motors using the active flux model, such that any design applicable for non-salient pole ac ...
A sensorless efficiency-optimizing vector control scheme for an induction motor drive
A sensorless efficiency-optimizing vector control scheme for an induction motor drive
In this paper, an energy-saving scheme in rotor field-orientated vector control is developed for induction motor drives. The energy-saving scheme minimizes copper and core losses i...
Modelització i control d'accionaments elèctrics.
Modelització i control d'accionaments elèctrics.
L'actual situació energètica demanda cada cop més d'aplicacions que redueixin el consum energètic. A nivell d'energia elèctrica, i de la conversió d'aquesta a energia mecànica, els...

Back to Top