Add to ORKGFor a electrical application involving induction machines, such as the electrical propulsion drive of an electric vehicle, the rotor current cannot be measured, so it must be estimated. This paper describes the rotor current estimation through reduced order estimator known as Kalman filter to apply a sensorless speed control of dual three-phase induction machines by using an inner loop of model-based predictive control. Finally, simulation results are provided to show the efficiency of the proposed sensorless speed control algorithm, thus concluding that the system can work properly without the speed sensor.CONACYT – Consejo Nacional de Ciencia y TecnologíaPROCIENCI
This article presents the results concerning the control of rotor flux and speed of the induction mo...
AC drives based on full digital control have reached the status of a maturing technology in a broad ...
Induction motor speed control is an area of research that has been in prominence for some time now. ...
In electrical drive applications based on induction machines, such as the propulsion drive of an ele...
En aplicaciones de accionamiento eléctrico basadas en inducción máquinas, como el accionamiento de p...
© 2015 IEEE. A sensorless finite-state predictive torque control (FS-PTC) strategy uses stator curre...
n this paper work, sensorless speed control of three phase induction motor is to be carried out usin...
This paper presents an estimator-based speed sensorless field-oriented control (FOC) method for indu...
© 2005-2012 IEEE. A finite-state predictive torque control system for a speed-sensorless induction m...
This paper presents an estimator-based speed sensorless field-oriented control (FOC) method for indu...
This paper presents and proposes a new approach to achieve robust speed estimation in induction moto...
WOS: 000278730100024This study offers a novel extended Kalman filter (EKF) based estimation techniqu...
The paper deals with a speed estimation of the induction motor using observer with Model Reference A...
This paper deals with speed and rotor flux estimation of induction motors via Extended Kalman Filter...
Bu tez çalışmasında, genişletilmiş Kalman filtresi (GKF) ve modele uyarlamalı sistem (MUS) tabanlı k...
This article presents the results concerning the control of rotor flux and speed of the induction mo...
AC drives based on full digital control have reached the status of a maturing technology in a broad ...
Induction motor speed control is an area of research that has been in prominence for some time now. ...
In electrical drive applications based on induction machines, such as the propulsion drive of an ele...
En aplicaciones de accionamiento eléctrico basadas en inducción máquinas, como el accionamiento de p...
© 2015 IEEE. A sensorless finite-state predictive torque control (FS-PTC) strategy uses stator curre...
n this paper work, sensorless speed control of three phase induction motor is to be carried out usin...
This paper presents an estimator-based speed sensorless field-oriented control (FOC) method for indu...
© 2005-2012 IEEE. A finite-state predictive torque control system for a speed-sensorless induction m...
This paper presents an estimator-based speed sensorless field-oriented control (FOC) method for indu...
This paper presents and proposes a new approach to achieve robust speed estimation in induction moto...
WOS: 000278730100024This study offers a novel extended Kalman filter (EKF) based estimation techniqu...
The paper deals with a speed estimation of the induction motor using observer with Model Reference A...
This paper deals with speed and rotor flux estimation of induction motors via Extended Kalman Filter...
Bu tez çalışmasında, genişletilmiş Kalman filtresi (GKF) ve modele uyarlamalı sistem (MUS) tabanlı k...
This article presents the results concerning the control of rotor flux and speed of the induction mo...
AC drives based on full digital control have reached the status of a maturing technology in a broad ...
Induction motor speed control is an area of research that has been in prominence for some time now. ...