This paper describes various methods aimed at tracking the flux and rotor position for cage induction machines without a shaft sensor using specially designed saliencies or natural saliencies. The estimation methods employ a High Frequency (HF) signal or test vectors to detect the machine saliency. As is common knowledge, multiple saliences can cause problems to track only one particular saliency. Ways to overcome this problem for rotor position and rotor flux tracking are discussed. The performance of these methods is investigated at all loads at low and zero speed and also at zero fundamental frequency.peer-reviewe
This work considers the sensorless control of AC machines for the low and zero speed operation range...
This paper analyzes the use of high-frequency signal injection methods for the sensorless control of...
In this paper we describe and analyze an application specific speed and flux estimation method of in...
This paper gives a review of sensorless methods developed for ac drives’ operation at very low and z...
The aim of this research project was to develop a position controlled induction machine vector drive...
Operation of model-based sensorless control of Alternating Current machines at low and zero speeds i...
This paper considers the general principles of saliency tracking in AC machines. Special attention i...
This chapter presents a position sensorless method for induction machines that only relies on the fu...
Permanent magnet motors have a series of characteristics that make them attractive for the use in in...
Abstract-This paper explores the tracking of high-frequency magnetic saliencies created by saturatio...
The aim of this research project was to develop a vector controlled induction motor drive operating ...
The use of induction machine spatial saliencies for sensorless vector control in the proximity of ze...
International audienceRotor flux spatial position can be tracked in an ac machine even at low or zer...
Two forms of high-performance torque control for motor drives have been described in the literature:...
This paper proposes a self-tuning, closed-loop flux observer which provides field-oriented torque co...
This work considers the sensorless control of AC machines for the low and zero speed operation range...
This paper analyzes the use of high-frequency signal injection methods for the sensorless control of...
In this paper we describe and analyze an application specific speed and flux estimation method of in...
This paper gives a review of sensorless methods developed for ac drives’ operation at very low and z...
The aim of this research project was to develop a position controlled induction machine vector drive...
Operation of model-based sensorless control of Alternating Current machines at low and zero speeds i...
This paper considers the general principles of saliency tracking in AC machines. Special attention i...
This chapter presents a position sensorless method for induction machines that only relies on the fu...
Permanent magnet motors have a series of characteristics that make them attractive for the use in in...
Abstract-This paper explores the tracking of high-frequency magnetic saliencies created by saturatio...
The aim of this research project was to develop a vector controlled induction motor drive operating ...
The use of induction machine spatial saliencies for sensorless vector control in the proximity of ze...
International audienceRotor flux spatial position can be tracked in an ac machine even at low or zer...
Two forms of high-performance torque control for motor drives have been described in the literature:...
This paper proposes a self-tuning, closed-loop flux observer which provides field-oriented torque co...
This work considers the sensorless control of AC machines for the low and zero speed operation range...
This paper analyzes the use of high-frequency signal injection methods for the sensorless control of...
In this paper we describe and analyze an application specific speed and flux estimation method of in...